The BioCoherence Blog

news, updates, references, articles...
Videos Blog and updates
13/10

Summit 25 videos, Summit 26 pre-booking

 Dear Friends,

As our very first BioCoherence Summit 25 comes to a close, I want to express my heartfelt gratitude for the incredible love, sharing, and dedication of all participants. We captured it all on film, and I hope you'll be able to share—even just a part of—that amazing energy with us.

We collectively felt the strong desire to organize another summit as soon as possible! The plan for Summit 26 is to hold it at the beginning of next June in the South of France. Could you please let us know if you'd like to participate so we can adjust the room capacity accordingly? A simple yes or no would be very helpful at this stage, on Summit 26 pre-booking. As with Summit 25, venue costs will range from approximately €160 to €230 per day, all inclusive (accommodation, meals, breaks, and training rooms), depending on the room type.

Regarding the past Summit, Here is the full playlist on YouTube (probably with ads) or on our website (no ads, with excerpts and transcriptions): biocoherence.net/summit25

 Read the news
09/09

BioCoherence 1.32
This update brings major performance improvements, essential bug fixes, and several little new features to enhance your experience with BioCoherence.
Highlights include:
- New drives filter on the graph: compare emotions, feelings, and more with one click
- Drive graph now stays visible when scrolling
- Basic programs improved: auto-load list items, change active day, and preview
- Many fixes for speed, stability, and smoother navigation
- Explorations now recompute automatically when updating the app.
Thank you for your feedback and for being part of this journey. More improvements are coming soon.


 Read the news
19/08

BioCoherence 1.31
Major performance improvements, essential bug fixes, and several powerful new features to enhance your experience with BioCoherence:
• A fully upgraded universal search across biomarkers, stimuli, TCM recipes, and test lists
• New control center in the Biomarker panel with tabs for AI Helpers, stimuli, related tests, and TCM links
• New harmonic Boost biofeedback test 
• Refreshed TCM recipe system with 500+ new entries and stronger organ-point-drive connections
• Updated Play Home with improved chord visuals and playback
• Improved report handling: auto-hiding empty sections and suggesting AI Helper summaries
• Smarter cloud sync, faster loading, and auto-saving of explorations (except private mode)
• OTP login via email or connected device
• Faster navigation, better bottom panel controls, and clearer alerts
• Fixes for report export, test notifications, and new Mood screen
 Read the news
31/07

BioCoherence 1.30

 Real-time in-app notifications, a new chord visualization on the Play homepage, and smarter alerts with a toast-style system. Exploration sync is now seamless by default, and collaboration is clearer with "last saved by" info and auto cloud-saving. Plus, numerous fixes and optimizations improve loading speed, screen layout, and overall user experience. Read the news
14/07

BioCoherence 1.29

 New universal links with QR codes, in-app notifications and online preview make sharing and onboarding easier than ever. Improved cloud sync, Harmonic Boost playback, and smarter notifications for pros and users. Family billing, AI-recommended boosts, and refined visuals round out the update. Read the news
28/06

BioCoherence 1.28

 New Help Center with Q&A and 650+ video answers - Precomputed Harmonic Boosts: play with screen off + media controls - New Case Report form, updated Play homepage - Better contact & program sharing, invite code options - Intro tips for new users, offline mode improvements Read the news
13/06

BioCoherence 1.27

 Real-time notifications with a new notification center - Share programs & invitations via universal links - Annotate & manage screenshots in reports - Guided tooltips with the new Discovery Flow - New keystrokes, menus & contextual helps - Improved cloud collaboration and audio export Read the news
27/05

BioCoherence 1.26

 New Global Coherence score (0–100) for better tracking - Enhanced curves, flowers, and timelines for progress insights - New AI Helpers for biomarkers and stimuli (Pro) - Family subscriptions now available - Redesigned Basic Program layout with embedded stimuli - Interactive body maps: zoom and cross-map navigation - Smoother navigation with new menus, tooltips, and shortcuts - 27 new psy stimuli + sound enhancements - Performance improvements and bug fixes. Read the news
22/05

Introducing IC, the Integral Coherence score

Introducing Integral Coherence (IC): A New Milestone in BioCoherence

With version 1.26, BioCoherence takes a major leap forward with the introduction of the Integral Coherence score—IC for short. This new feature represents the very essence of what BioCoherence stands for: a unified, systemic understanding of your energy, body, and mind.

To activate it, simply go to Settings > Experimental, and enable "Show Integral Coherence score." Once activated, you'll find the IC score beautifully displayed at the center of each BioCoherence flower.

What is IC?

IC is a renormalized coherence score built on the foundation of our previous internal coherence metrics. But this time, we've made it universal—translating complex internal values into an easy-to-read scale from 0 to 100.

Behind the scenes, this transformation is powered by deep learning models trained on hundreds of thousands of data points across thousands of ECG recordings. For each biomarker, family, and type, we've computed thousands of internal coherence scores to ensure that the IC reflects a deep, data-driven understanding.

Why does it matter?

The IC score offers a powerful new way to track your overall systemic coherence. It reflects:

  • Internal qualities such as energy, agitation, attention, intention, and long-term vision.

  • External relationships like energetic exchanges with other systems, and the strength or fragility of those links.

Whether applied to a single biomarker, a family, an evaluation, or an entire exploration, IC captures the fundamental quality of coherence in the system being analyzed.

In some specific contexts—like problematic micro-organisms, negative emotional patterns, or restrictive forces—the IC may be computed using alternative algorithms or presented with a different computation, making it contextually relevant and meaningful.

A Name That Speaks Volumes

Pronounced "I see", the IC score encapsulates its purpose: to offer clear vision into your inner coherence and your ability to connect meaningfully with the world. It expresses both your inner vitality and your capacity to relate, help, and engage.

Track Progress Easily

With every new recording, the IC score can be re-evaluated and visualized over time through an intuitive progress curve. Its consistent 0–100 scale makes it easy to monitor change:

  • empty: Not computed (you can always recalculate a recording to compute the new IC score)

  • 0–30 (Red flower center): Very low

  • 30–70: Normal

  • 70–99 (Green flower center): High — the "Resources" territory

See the Big Picture: The Global Flower

IC is also tied to the new Global Flower visualization, which presents an energy and agitation density chart. Each of the eight petals grows in proportion to the distribution of biomarkers—giving you an at-a-glance view of your system's balance and progress after each evaluation.

For each complete exploration and each of its parts (through re-evaluations), a global IC is computed that reflects the overall Integral Coherence of all biomarkers at the moment of the measurement. This gives you a clear, actionable way to track overall progress and state, with a global progress curve now added on top of the Progress section.

Integral Coherence is not just another metric—it's the heart of the BioCoherence philosophy: seeing clearly, connecting deeply, and evolving purposefully.

Ready to see your IC? Update to version 1.26 or higher (or 1.25.14 or higher on beta) and activate it in Settings.

 Read more
06/05

BioCoherence 1.25

 Massive Update! +300 new protocols, +1100 descriptions, +1500 biomarker matches, and the new "Structure Resonances" category for targeted balancing. AI Helpers now build and customize Basic Programs, write PDF conclusions, and remember your history. Pro onboarding is smoother with easy invite codes. Discover ATP, genes, enzymes & more in new protocols. Sneak peek: Pro Directory, Training Platform, Extensions Marketplace & Art Gallery are coming. Plus, first steps toward gamification and smarter Resources. Read the news
23/04

A Breakthrough Nature Study

The recent study titled "Acoustic modulation of mechanosensitive genes and adipocyte differentiation" published in Nature Communications Biology , presents compelling evidence that audible-range acoustic waves can directly influence gene expression and cellular behavior in mammalian cells. This research holds significant implications for the validation of BioCoherence—a concept proposing that biological systems exhibit coherent, wave-like behaviors that can be modulated or entrained by external physical stimuli.

1. Demonstrates Sound as a Biological Modulator

The study confirms that audible-range acoustic waves can induce mechanosensitive gene expression and even modulate cell fate (e.g., suppressing adipocyte differentiation). This validates one of the core principles of BioCoherence — that coherent sound or vibration can influence biological systems in precise, non-invasive ways. In the principles of BioCoherence, biological systems are thought to operate through coherent, wave-like processes that can be influenced by external physical forces. The study provides empirical evidence supporting the idea that mechanical vibrations, such as sound waves, can modulate cellular behavior in a predictable and coherent manner.

BioCoherence posits that structured, resonant inputs like sound can entrain biological rhythms and modulate cellular behavior. This paper gives molecular proof of that idea.

2. Highlights Specific Mechanisms (FAK → Ptgs2/Cox-2 → PGE₂)

This gives BioCoherence a mechanistic foothold: the modulation of the focal adhesion kinase (FAK) pathway by acoustic waves shows a tangible, intracellular route by which mechanical input becomes genetic/biochemical output.

BioCoherence can now reference Ptgs2/Cox-2 and PGE₂ signaling as concrete pathways influenced by sound, offering targets for further tuning or intervention.

3. Bridges Mechanics and Cellular Consciousness

By showing how vibrational fields (i.e., sound) directly affect cellular decision-making (e.g., whether to differentiate), the study supports the idea that cells are not just passive biochemistry labs — they respond dynamically to energetic input.

The demonstration that specific acoustic frequencies can induce targeted gene expression changes and influence cell differentiation supports the concept of BioCoherence. It implies that biological systems are not only sensitive to mechanical vibrations but also capable of translating these physical cues into coherent biological responses. This opens avenues for further research into how external physical stimuli can be harnessed to modulate biological processes, potentially leading to novel therapeutic strategies that leverage the principles of BioCoherence.

This resonates with BioCoherence's deeper suggestion that biological systems operate with inherent coherence, awareness, and responsiveness to their environment, even to subtle vibrational cues.

4. Offers Experimental Protocols

The use of C2C12 myoblasts, 3T3-L1 preadipocytes, specific sound frequencies (440 Hz, 14 kHz), and white noise, gives researchers a template to replicate or extend experiments.

Future BioCoherence studies could optimize frequency, waveform, or rhythmicity to explore specific physiological or therapeutic outcomes.

5. Supports Non-Chemical Therapeutics

BioCoherence emphasizes non-invasive, energetic interventions. This research strengthens that stance by showing that sound alone (without drugs or genetic edits) can regulate gene expression and cell behavior.

That opens doors to therapies based on acoustic vibrational patterns rather than molecules.

If you're building or advocating for BioCoherence, this paper is gold — it moves the conversation from "this sounds cool" to "this is biologically real, and here's how."

This study lays the groundwork for exploring how controlled acoustic stimulation can be used to influence cellular behavior in a coherent and predictable manner. Future research could investigate the specific pathways and mechanisms through which acoustic waves affect different cell types, the long-term effects of such stimulation, and the potential therapeutic applications of acoustic modulation in tissue engineering and regenerative medicine.

In summary, the research provides a significant step toward validating the concept of biocoherence by demonstrating that audible-range acoustic waves can serve as coherent physical stimuli, eliciting specific and measurable biological responses.

For us in the BioCoherence space, this is huge:

  • Validates sound as a biological input, not just noise
  • Shows precise genetic and cellular effects
  • Opens the door to non-invasive, frequency-based therapeutics

Link to the paper: https://www.nature.com/articles/s42003-025-07969-1

 Read more
27/03

BioCoherence 1.24, Summit 2025

 The app now supports 20 languages, including Arabic with reversed layout. Audio meditations are available in 5 languages, with more coming soon. A new Journal feature allows users to track progress with entries and graphs, shared between Pro and Client. Enhanced contact management simplifies login sharing and Me Play subscriptions. Harmonic Boost & Personal Guide improvements include smoother audio and preset meditation durations. Books Update: Sing the Body Electric is now included with every Sensor order and pre-translated into 20 languages. Read the news
07/03

Instant healing testimonies: overview and possible explanations

 Here are some testimonies shared in our 21th user webinar:
  1. Vision Improvement Testimony - A user named Dan reported that after following the "10-10 Vision Program" meditation created by Christine, his eyesight showed noticeable improvement. This suggests that targeted meditation can have a positive impact on vision.
  2. Mother's Chronic Pain Relief - A user's mother had been suffering from severe back pain for nearly a year, trying multiple medical treatments without success. After finally agreeing to try sound frequencies, she listened to a harmonic protocol designed for her. Within 30 minutes, her pain reduced from 90% to 10%, and she was able to move freely again. She also reported having the best sleep in a long time.
  3. Knee Dislocation Recovery - A user named Kat experienced frequent knee dislocations, worsening to the point where it happened multiple times an hour. After running a scan and playing the harmonic boost for "joints and tendons" for just a few seconds, her knee stopped dislocating. A month later, she reported that the issue had not returned.
  4. Strength and Balance Improvement - A user tested their grip strength before and after listening to sound frequencies and observed a significant improvement. This real-time feedback demonstrated the immediate impact of the frequencies on physical strength and nervous system function.
  5. Pain and Detox Effects - Another user experienced worsening knee pain after using the frequencies, which was later identified as a detox effect. After continuing the process and adjusting their approach, they noticed structural improvements in their body, suggesting that temporary discomfort can be part of the healing process. These testimonies highlight the effectiveness of bioCoherence technology in improving physical and mental well-being through sound frequencies and guided meditations.
It is important to note that we do not make any medical claim here. These are anecdotal individual case reports. But we are as intrigued as you are as to how such a quick response might occur.

A possible explanation: the Piezoelectric effect

  • Research suggests the piezoelectric effect may explain pain relief and other benefits from BioCoherence's audio frequencies, but the evidence is not definitive.
  • It seems likely that sound-induced vibrations stimulate the body's piezoelectric materials, like bones, generating electrical signals that could reduce pain.
  • The connection to specific cases, like knee pain relief, is complex and may involve indirect nervous system effects and indirect effect on tissues.

How the Piezoelectric Effect Might Work

The piezoelectric effect is when certain materials, including parts of the human body like bones, generate electrical signals under mechanical stress. When you listen to BioCoherence's audio frequencies, the sound waves may cause vibrations that stimulate these materials. This could lead to electrical signals that influence your nervous system, potentially reducing pain and improving head clarity, for instance.

Specific Case of Knee Pain

For the user with a knee problem, the audio frequencies related to knee joints might resonate with the body's tissues, possibly stimulating the piezoelectric effect in the knee area. However, if the sound is only heard through the ears, the effect might be indirect, possibly through the nervous system, rather than direct vibration at the knee. Whole body vibration is then a possible pathway.

Unexpected Detail: ECG-Based Frequencies

An interesting aspect is that BioCoherence's frequencies are selected based on ECG analysis, linking the heart, brain and body electrical activity to the selected frequencies, which might enhance the therapeutic effect by aligning with the body's natural rhythms.

Detailed Analysis of BioCoherence and the Piezoelectric Effect

This note provides a comprehensive exploration of how the piezoelectric effect might explain the observed benefits of BioCoherence's audio frequencies, including pain relief, head clarity, and problem resolution, as reported by users. It also addresses specific cases, such as the resolution of a chronic knee issue, and considers alternative explanations. The analysis is grounded in scientific research and aims to provide a professional article, offering a detailed, evidence-based perspective.

Introduction to BioCoherence and User Reports

BioCoherence plays audio frequencies in 6.73-second groups of four, selected through algorithms based on ECG analysis, and claims to provide rapid pain relief and other benefits. Users report year-long pain stopping within minutes, and one specific case involved a user with a recurring knee dislocation issue, resolved after listening to a knee-related program, with no further dislocations a month later. The question is whether the piezoelectric effect can explain these outcomes and what other mechanisms might be at play.

Understanding the Piezoelectric Effect in the Human Body

The piezoelectric effect is the generation of electrical charge in response to mechanical stress, observed in materials like quartz and, importantly, in biological tissues such as bones and collagen. Research, such as Piezoelectricity in Bone, confirms that bones exhibit this property, with mechanical stress generating electrical signals that influence bone remodeling and regeneration. This effect is due to the collagen matrix and hydroxyapatite in bones, as detailed in Piezoelectric Effect And Bone Density. Other tissues, like tendons and cartilage, also show piezoelectric properties, suggesting a broader impact across the body.

Mechanism of Sound-Induced Piezoelectric Stimulation

When users listen to BioCoherence's audio frequencies, the sound waves, within the audible range (20 Hz to 20,000 Hz), cause vibrations primarily in the auditory system, particularly the cochlea. Studies, such as Piezoelectric materials mimic the function of the cochlear sensory epithelium, indicate that the cochlea uses piezoelectricity to convert mechanical vibrations into electrical signals for hearing. These vibrations could extend to other body parts, potentially stimulating piezoelectric materials like bones, generating electrical signals that might influence cellular activity or nervous system function.

The specific timing of 6.73-second groups of four frequencies suggests a structured approach, possibly aligning with physiological cycles. If each group lasts 6.73 seconds with four frequencies, each frequency might be resonating with the body's natural frequencies. Research on resonant frequencies of the human body shows example of whole-body resonances around 9 to 16 Hz, and brain resonances at 1 to 14.3 Hz, which could overlap with lower audio frequencies and binaural beats (a kind of amplitude modulation (AM) technique that allows to transmit lower than audible frequencies acoustically), enhancing the piezoelectric effect.

Connection to Pain Relief and Other Benefits

Vibration therapy, as supported by Vibration for Chronic Pain, is known for pain relief, often through the gate control theory, where mechanoreceptors inhibit pain signals. The piezoelectric effect could contribute by generating electrical signals that modulate nerve activity, reducing pain perception. For head clarity and problem resolution, these signals might influence brain activity, possibly through resonance with neural frequencies, as suggested by studies on sound vibration effects on human health.

The ECG-based frequency selection adds complexity. ECG signals, with frequencies from 0.05 Hz to 150 Hz, might serve as selection through a multilayer non-linear analysis of audio frequency programs, potentially aligning with heart rate variability (HRV) effects, as seen in The Effect of Low Frequency Sound on Heart Rate Variability. This alignment could enhance the piezoelectric effect by synchronizing with the body's electrical rhythms, promoting relaxation and pain relief.

Specific Case Analysis: Knee Pain Resolution

The case of the user with a knee dislocation issue, resolved after listening to a knee-related program, is particularly intriguing. The knee joint includes bones and cartilage with piezoelectric properties, as noted in Piezoelectric smart biomaterials for bone and cartilage tissue engineering. However, sound heard through the ears typically doesn't directly vibrate the knee significantly. One possibility is that the audio frequencies cause whole-body vibrations, transmitted through the skeletal system, stimulating the knee's piezoelectric materials. Another is that the auditory system's piezoelectric response generates signals that, via the nervous system, reduce knee pain, possibly through endorphin release or neural modulation.

The rapid resolution (within minutes) suggests a neurological or immediate physiological effect rather than structural bone remodeling, which takes longer. This aligns with Possible Mechanisms for the Effects of Sound Vibration on Human Health, where sound vibrations improve pain tolerance, potentially through neurotransmitter activation. But this case was an instant resolution of a physical problem, not just a pain suppression.

Summary

Tissue Type Piezoelectric Property Potential Role in Therapy
BoneYes, due to collagen and hydroxyapatiteGenerates electrical signals for bone remodeling, potentially pain relief
CartilageYes, observed in studiesMay influence joint health, relevant for knee pain
CochleaYes, in hair cellsConverts sound to electrical signals, possible neural pain modulation
Frequency RangePotential EffectRelevance to BioCoherence
0.05–150 Hz (ECG)Heart, brain and whole body electrical activity, basis for frequency selectionAligns with body rhythms, enhances piezoelectric effect
20–20,000 Hz (Audio)Audible range, causes vibrationsStimulates piezoelectric materials, potential pain relief

The piezoelectric effect likely contributes to BioCoherence's benefits by converting sound-induced vibrations into electrical signals, influencing physiological processes like pain relief and head clarity. For specific cases like knee pain, the effect may be indirect, through nervous system modulation or whole-body vibration transmission. While research supports the piezoelectric properties of bones and vibration therapy's pain-relieving effects, the direct link to audio frequencies requires further study. The ECG-based frequency selection adds an intriguing layer, potentially enhancing resonance with the body's natural rhythms.

Another perspective: insights into how the brainstem and vestibular system interact with sound frequencies to influence physical and mental health

Jason shared some fascinating insights in our 21th user webinar:

  1. Brainstem's Role in Autonomic Function: The brainstem is responsible for controlling autonomic tone throughout the body. If the brainstem is not functioning well, it can lead to muscle tension, laxity, pain, or dysfunction.
  2. Auditory-Vestibular Connection: The auditory nerve (which processes sound) is the same as the vestibular nerve (which controls balance). Sound frequencies stimulate the vestibulospinal tract, which influences posture, movement, and pain perception.
  3. Pain and the Brainstem: The brainstem inhibits pain when functioning properly. If the brainstem is underactive, it can lead to chronic pain, poor balance, and nervous system dysfunction. Sound frequencies can stimulate the brainstem, improving its function and reducing pain.
  4. Immediate Effects of Frequencies: Jason mentioned that sound frequencies can have an immediate effect on strength, balance, and pain. He suggested using grip strength tests or balance assessments before and after listening to frequencies to measure changes in nervous system function.
  5. Neuroplasticity and Long-Term Effects: Repeated exposure to beneficial frequencies can rewire the brain and create new neural pathways. This can lead to lasting improvements in pain, movement, and mental health.
Kat's Testimony (She had a dislocating kneecap multiple times a day. After listening to one frequency session for a few seconds, her knee has been stable for a month) and Steven's Mother (She had chronic back pain for a year. After listening to a harmonic boost frequency for 30 minutes, her pain dropped from 90% to 10% and she slept deeply for the first time in months) could also be explained by this pathway.

Jason's explanation highlights how frequencies influence the brainstem and nervous system, leading to immediate and long-term improvements in physical and mental health. The vestibular system, pain inhibition, and neuroplasticity all play a role in how sound therapy can create miraculous healing effects

Alternative Explanations and Considerations

While the piezoelectric effect on one hand, and the nervous system reception on another hand, both offer plausible mechanisms, other explanations exist. The audio frequencies might stimulate the auditory system, activating the parasympathetic nervous system for relaxation, as seen in How Sound Affects the Brain. This could reduce pain through stress reduction, independent of piezoelectricity. The placebo effect is also possible, given the rapid and dramatic user reports, though this doesn't explain the specificity to knee-related programs. Other explanations can be found in less accepted parts of the scientific research, like the fact that Sound has Mass and thus, Gravity. This is an intriguing thought: Sound waves are mechanical vibrations that propagate through a medium, such as air or biological tissues, by causing particles to oscillate around their equilibrium positions. These waves carry energy and momentum, but they do not have mass in the traditional sense. However, in the framework of general relativity, energy and momentum can influence spacetime curvature, leading to gravitational effects. Therefore, sound waves could, in theory, generate minuscule gravitational waves due to their energy and momentum densities. You could extrapolate with the concept of resonant cavities: in the context of sound waves, certain resonance conditions in enclosed cavities—such as body organs, Helmholtz resonators, or specific chamber geometries—can create conditions where longitudinal wave interactions generate effects resembling scalar waves. When sound waves reflect and interfere within a cavity, standing wave patterns can form, potentially leading to nonlinear energy distributions. Some researchers speculate that under particular conditions, these acoustic interactions could give rise to coherent energy fields with properties akin to scalar waves, although this remains an area of debate without mainstream scientific validation.

Key Citations 

 Read more
06/03

BioCoherence 1.23

Highlight: Questionnaires & Meditations! With the theme, goal, and problem, linking to a medical questionnaire for initial and follow-up evaluations refine priorities, add specific Personal Guide meditations, and track progress. Up to three 7-day meditations can now be included in a 21-day program. The seven questionnaires bring 294 new audio meditations, plus seven functional meditations like Eye Care and Brain Care routines. A new Personal Guide intro has been added. Harmonic Boost now features improved MP3 management, looping, and control center support. The Personal Guide has also been improved.

 Read the news
25/02

Code of Ethics

Charte d'Engagement Moral de BioCoherence

BioCoherence est un outil dédié au développement personnel individuel et à l'accompagnement vers une meilleure santé énergétique, physique et mentale. Grâce à une analyse innovante et à des outils de rééquilibrage uniques, nous permettons à chacun de mieux comprendre son état et d'agir en toute autonomie.

Nous nous engageons à respecter les principes fondamentaux suivants :

  1. Aucune manipulation contre la volonté individuelle 

    Chaque individu est libre de son cheminement et de ses choix. Nos outils sont conçus pour guider sans influencer ni imposer.

  2. Rendre le pouvoir d'auto-guérison à chaque individu 

    Nous valorisons l'autonomie et l'intelligence du corps en offrant des clés de compréhension et des outils favorisant l'équilibre et le bien-être.

  3. Proposer des outils avancés accessibles à chacun 

    Nos solutions sont conçues pour être compréhensibles et utilisables par tous, indépendamment du niveau de connaissance scientifique ou technique.

  4. Assurer un respect total de l'intégrité de chacun 

    Chaque individu est unique, et notre approche respecte la diversité des parcours, des ressentis et des besoins.

  5. Garantir la confidentialité et la sécurité des données personnelles 

    La protection des informations est une priorité absolue. Nous mettons en place des protocoles rigoureux pour assurer la sécurité des données et la confidentialité des échanges.

  6. Créer un espace sécurisé et rassurant 

    Nous favorisons un environnement bienveillant, propice à l'exploration de soi et au développement personnel en toute sérénité.

  7. S'appuyer sur des bases scientifiques et assurer la transparence 

    Nos analyses reposent sur des données mesurables et des méthodologies claires. Nous communiquons de manière transparente sur les principes et les limites de nos outils.

  8. Respecter l'autonomie et le libre arbitre 

    BioCoherence propose un accompagnement sans dogmatisme, permettant à chacun d'explorer librement les solutions qui lui correspondent.

  9. Ne pas se substituer au médical 

    Nos outils sont un complément de bien-être et ne remplacent en aucun cas un diagnostic ou un traitement médical.

  10. Évoluer continuellement pour améliorer nos services 

    Nous restons à l'écoute des avancées scientifiques et des retours de nos utilisateurs pour affiner nos méthodes et proposer des solutions toujours plus performantes.

  11. Adopter une éthique irréprochable et une approche bienveillante 

    Nous nous engageons à accompagner chaque individu avec respect, sans jugement, et dans une dynamique d'écoute et d'adaptation à ses besoins.

Avec cette charte, BioCoherence affirme son engagement envers une approche responsable, respectueuse et tournée vers le bien-être et l'épanouissement de chacun.

 Read more
11/02

BioCoherence 1.22

 Highlight: Questionnaires for Pros! A new Questionnaires section is now available for Pros, featuring official medical questionnaires for assessments and follow-ups. Users can complete self-assessments at the end of a recording and after a 21-day program. Pros can also request client responses remotely, refining resources, priorities, and therapy evaluations. Read the news
04/02

BioCoherence 1.21

 Nouvel écran de chaîne causale et amélioration de l'interface ! La section Biomarqueurs comprend désormais un écran de chaîne causale, montrant les relations entre tous les biomarqueurs et mettant en évidence les connexions clés. La navigation mobile a été améliorée avec des graphiques en plein écran, et le flux Pro/Utilisateur est maintenant plus fluide avec des codes d'invitation. Un nouveau niveau de licence Personnalisé offre un accès personnalisé aux écrans d'analyse. De plus, les programmes de base et les aides à l'IA ont été améliorés pour une meilleure navigation. Read the news
27/01

BioCoherence 1.20

 Welcome, AI Helpers! Over 20 specialized AI Helpers are here to assist, offering insights tailored to their fields of expertise, with a privacy-first approach and full access to your analysis. AI Helpers can suggest biomarker insights, play harmonic boosts, create custom meditations, adjust priorities, or even build a Basic program from scratch for yourself or clients. Pros can collaborate with AI Helpers for case discussions, while users gain actionable insights. A summary is added to reports and shared with the Pro if enabled. New Features also on the Settings Page: Customize privacy levels, tweak interface options, and adjust automatic Resources and Priorities selection. Basic Programs now offer public programs accessible without registration. Revamped UI, bug fixes, and graphic updates. Read the news
24/01

It's torus all the way down: about our Personal Guide sounds

 Chers amis,

suite au 16ème webinaire de la série Masterclass d'hier où j'ai expliqué le champ énergétique humain en forme de tore et la raison du bruit de fond blanc dans nos méditations de Guide Personnel, j'ai ressenti qu'il était nécessaire d'ajouter quelques informations supplémentaires. C'est parti pour une explication en profondeur du champ corporel humain et des sons dans nos méditations.

Le champ corporel humain: des tores dans des tores - comme des poupées tau-rus(ses)

Quelques jolies images pour vous aider à visualiser un Tore.

A l'échelle de la terre:

  • Le champ magnétique de la terre protège des radiations venant de l'espace. Les aurores boréales sont créées par le flux magnétique entrant par les pôles qui interagit avec les particules de la haute atmosphère.
  • Ce champ magnétique possède des fréquences de résonances résultant de la taille physique de l'atmosphère terrestre (les fréquences de Schumann).

A l'échelle de l'atome:

  • Les champs de force atomique créent un tore à l'échelle de l'atome. Note personnelle: il est probable que ce tore ait plusieurs harmoniques (des "couches atomiques") qui correspondent aux couches atomiques autour desquelles les atomes ne peuvent prendre que des valeurs entières (c'est à dire "quantisées" d'où le terme de "physique quantique").

Résultant de l'ensemble de l'activité électrique et magnétique de nos cellules, le champ magnétique humain doit avoir le même rôle qu'à l'échelle de la Terre ou de l'atome :
  1. Comme pour la terre,
    • Protection contre les radiations extérieures. A noter que, comme pour la Terre, ces radiations devraient pouvoir circuler par le haut (7e chakra) et le bas (1er chakra). Mais elles resteraient confinées au bord extérieur et à la circulation interne verticale (Ida et Pingala, lien des chakras).
    • Valeurs de résonance propre aux dimensions physique de ce champ (nos "fréquences de Schumann" personnelles).
  2. Comme pour l'atome,
    • différentes couches correspondant à différentes harmoniques du système. Il est assez facile de ressentir ces couches avec les mains.
  3. Mais, comme pour un système vivant complexe, ces valeurs sont la résultante d'un nombre littéralement incalculable d'interactions des activités électro-magnétiques entre l'énergie, le corps et l'esprit. Ces valeurs peuvent donc changer de seconde en seconde. Avec un minimum d'entraînement, on peut soi-même ressentir des contractions ou expansions de ces couches en fonction des pensées, de l'environnement, ou des conditions changeantes.
A noter que l'image ci-dessus ne montre qu'une couche d'un seul tore, le tore que j'appelle "le bouclier personnel" et donc on va parler dans la prochaine partie consacrée aux Guides Personnels dans BioCoherence. Il existe en réalité des tores à toutes les échelles dans le corps, qui créent des sous-tores et sur-tores par effet de résonance et d'harmoniques, et les principaux sont nommés les Chakras.

Liens d'échelle

Afin que ces éléments résonnent ensemble, il doit y avoir un lien d'échelle. Je propose les valeurs entières Elfie comme lien d'échelle.
  • A l'échelle terrestre: Les résonances de Schumann ont une valeur Elfie de 199, 200 et 201. La terre a une circonférence de 201 Elfie. La vitesse de la lumière a une valeur de 207 Elfie.
  • A l'échelle humaine: les cellules ont des valeurs de résonance de 171, 180, 182 et 187 Elfie.
  • A l'échelle atomique : l'eau sous forme de cristal liquide (dans nos cellules) a une fréquence de résonance de 135 et 140 Elfie. Les microtubules, de 130 et 132 Elfie. L'ADN, de 122 et 126 Elfie. Aux niveaux atomiques, on descend jusqu'à 116 Elfie pour l'hydrogène.
Toutes ces valeurs entières signifient que l'énergie et l'information peuvent se transmettre via une onde d'échelle optimisée entre les différents niveaux. Ce n'est pas de la magie, cela résulte d'une auto-optimisation aux différentes échelles qui tient compte des valeurs existantes dans l'environnement. Les cellules et le corps humain sont optimisés pour résonner avec les atomes et la Terre (l'environnement naturel).

Le tore en physique:


BioCoherence et le Guide Personnel: construire son "bouclier personnel"

Pour comprendre comment sont construites les méditations guidées du Guide Personnel, commençons par visualiser les harmoniques dans chaque type de son que vous pouvez entendre dans celles-ci.

Le bruit blanc: le bouclier personnel

Ce son enveloppant crée un cocon personnel; la rotation du son est stimulée sur un multiple entier de Elfie (avec 2 cycles complexes: un premier combinant 0.0216 Hz, 0.035 Hz et 0.5 Hz et un second combinant 0.0139 Hz ,0.0226 Hz et 0.7 Hz). On peut le distinguer par les vagues en bas de l'audiogramme ci-dessus.
  • Ces valeurs créent une rotation complexe en 3 dimensions qui ressemble à l'image B ci-dessus. Le champ est réglé autour d'un mètre autour de soi, afin de créer son propre cocon de protection durant la méditation.
  • Le bruit blanc est intentionnellement fort par rapport à la voix. La voix est censée parler au mental, mais la méditation est avant tout une technique d'auto-hypnose où l'inconscient est censé prendre beaucoup plus d'importance que dans l'état normal de conscience. Ainsi, la voix doit être tout juste distinguée, à la limite de l'audition, afin d'être guidé de manière subliminale et de laisser une place prépondérante à l'inconscient.
  • Les fréquences audio ajoutées sont bioactives, leur volume et intentionnellement baissé car elles agissent par effet de résonance (une impulsion très faible suffit pour créer un effet, pour peu qu'elles rentrent en résonance avec un système).

Les fréquences et accords dans le guide personnel

Accords de musique personnelle et respiration
On peut distinguer sur cet audiogramme qui concerne la seconde partie des méditations guidées (l'accord musical personnel) deux parties :
  1. la respiration, un fort bruit blanc
  2. l'accord personnel, dont les strates horizontales sont composées des harmoniques musicales de l'accord (BioCoherence détecte 432 accords personnels différents).
Fréquences bioactives (boost harmonique)
Ces fréquences sont modifiées toutes les 6.73 secondes (un multiple entier Elfie) et choisies pour activer le système en cours (que ce soit un méridien, un organe, un point d'acuponcture...). On a toujours 4 fréquences jouées à la fois afin de stimuler un système à plusieurs échelles.
Si un Pro a ajouté un protocole particulier, les fréquences sont alors activées en même temps, afin de stimuler le système en cours pour le mettre en résonance, et de stimuler le protocole correctif en même temps afin de diriger ces fréquences correctrices sur le système cible. Ainsi, l'information fréquencielle de correction est directement transportée sur le système cible.

Méridiens d'acupuncture
Les méridiens ont une mélodie particulière faite de la stimulation séquentielle de l'ensemble de ses points d'acupuncture, selon le rythme propre de la personne mesurée. Les fréquences bioactives propres au méridien (en bas de la visualisation) sont donc augmentées de celles de chacun des points, dans l'ordre et à la vitesse nécessaire pour une stimulation complète de la circulation du méridien.
Pour mémoire, les méridiens sont décrits comme des rivières d'énergie par la MTC ; c'est le flux de cette rivière qu'on entend dans cette partie.
Intro
Le son d'introduction est un son bioactif spécial ; il commence par des harmoniques Elfie entières pures, transformées en un accord de do majeur. L'effet bioactif de cette introduction est d'aligner immédiatement tous les éléments à toutes les échelles de votre énergie, de votre corps et de votre esprit, sur les valeurs Elfie entières, puis sur un bel accord musical majeur. A ce stade, en quelques secondes, vous êtes aligné et prêt à partir pour votre voyage !
 Read more
20/12/24

BioCoherence 1.19

 Le lecteur de méditation a été entièrement repensé pour une lecture transparente sur tous les appareils. Explorez la bibliothèque Balance, rebaptisée Sets, qui propose des outils de recherche et de personnalisation améliorés. Découvrez le nouvel écran "Courbes". De plus, profitez de synchronisations plus rapides, d'une création de MP3 améliorée et de bien d'autres choses encore. Read the news
05/12/24

BioCoherence 1.18

 The Priorities screen gets a major upgrade with a refined automatic algorithm for precise prioritization. A new "pick a priority" tool lets you explore all biomarkers, TCM recipes, and meditation items. Introducing the Balance Library: save, share, and load priority lists for personalized or public use, including pre-set guided meditations accessible without a scan. Improved chakra visualizations, proactive Bluetooth connections, and enhanced voices (now available in English and French) round out this update.  Read the news
02/12/24

The 21-Day Balancing Program

 The 21-Day Balancing Program is a transformative tool designed to help practitioners and clients alike achieve coherence in body, mind, and energy. Whether you're a seasoned practitioner or a curious newcomer, this presentation will provide a comprehensive overview of the program, its features, and its potential applications.

What is the 21-Day Balancing Program?

The 21-Day Balancing Program is a structured, customizable protocol within the BioCoherence software that combines personalized frequency programs, guided meditations, and biomarker analysis to promote holistic well-being. Designed for both practitioners and end-users, the program offers a daily regimen of meditations and frequency-based interventions tailored to the individual's unique needs.The program is built around the principle of coherence—achieving harmony between the body, mind, and energy systems. By leveraging advanced algorithms, the software generates a personalized plan based on the user's biomarker analysis, which is conducted using the BioCoherence sensor.

How Does It Work?

  1. Initial Scan and Analysis. The process begins with a scan using the BioCoherence sensor. This device measures various biomarkers, including energy flow, organ function, and emotional states. The data is then analyzed to identify priorities (areas that need immediate attention) and resources (strengths that can be leveraged for healing).
  2. Personalized Program Generation. Based on the analysis, the software generates a 21-day program that includes: - Frequency Programs: Pure sinusoidal frequencies designed to address specific biomarkers. - Guided Meditations: Spoken-word meditations tailored to the user's needs, incorporating binaural beats and other sound therapies. - Acupuncture Points and Recipes: Recommendations for Traditional Chinese Medicine (TCM) points and recipes to enhance the program's effectiveness.
  3. Daily Engagement. Users engage with the program daily, dedicating 30-40 minutes to the guided meditations and frequency programs. The software tracks progress, allowing for periodic re-evaluations to refine the program.
  4. Re-Evaluation and Updates. Practitioners can conduct re-evaluations every few days to update the program based on the user's progress. This ensures that the interventions remain aligned with the individual's evolving needs.

Key Features of the 21-Day Program

1. Guided Meditations

The guided meditations are a cornerstone of the program, combining spoken-word guidance with sound therapies like binaural beats. These meditations are designed to target specific areas identified during the initial scan, such as emotional balance, energy flow, or organ function.
  • Customizable Length: Users can adjust the duration of the meditation, ranging from 19 minutes to 90 minutes, depending on their schedule and needs.
  • Mute Option: For those who prefer silent meditation, the software allows users to mute the spoken guidance while still benefiting from the frequencies and soundscapes.
  • Daily Rotation: The meditations change daily, ensuring a dynamic and engaging experience.

2. Frequency Programs

The frequency programs are another critical component, delivering pure sinusoidal frequencies to the body. These frequencies can be played through headphones, speakers, or even specialized devices like plasma fireballs.
  • Transducer Technology: Users can place headphones or other transducers on specific areas of the body to target localized issues.
  • Subset Selection: The software allows users to filter frequencies by categories like mind, body, or energy, enabling focused interventions.
  • Export Options: Practitioners can export frequency programs as MP3 files, allowing clients to play them on loop throughout the day.

3. Biomarker Integration

The program integrates biomarker data to create a truly personalized experience. Key biomarkers include:
  • Energy Flow: Identifying blockages or imbalances in the body's energy systems.
  • Organ Function: Highlighting areas of physical health that need attention.
  • Emotional States: Addressing psychological and emotional well-being.

4. Acupuncture and TCM Integration

The software incorporates Traditional Chinese Medicine principles, recommending specific acupuncture points and recipes based on the user's analysis. These points are seamlessly integrated into the frequency and meditation programs.

5. Cloud-Based Sharing and Monitoring

Practitioners can share the program with clients via the cloud, enabling remote monitoring and updates. Clients can access their reports, frequencies, and meditations through the BioCoherence app, ensuring continuity of care even from a distance.

Practical Applications

For Practitioners

The 21-Day Balancing Program is a powerful tool for practitioners, offering:
  • Client Retention: The program encourages clients to return for periodic re-evaluations, fostering long-term relationships.
  • Remote Monitoring: Practitioners can track client progress remotely, making it easier to manage multiple clients.
  • Customizable Interventions: The ability to add custom meditations or frequency protocols allows for highly personalized care.

For Clients

Clients benefit from:
  • Convenience: The program can be accessed from home, making it ideal for those with mobility issues or busy schedules.
  • Empowerment: By engaging with the program daily, clients take an active role in their healing journey.
  • Holistic Care: The integration of physical, emotional, and energetic interventions ensures a comprehensive approach to well-being.

Innovations on the Horizon

The BioCoherence team is continually refining the 21-Day Balancing Program. Upcoming features include:
  • Custom Meditations: Practitioners will soon be able to create personalized meditations for individual clients, complete with custom scripts and audio.
  • Language Expansion: The software currently supports multiple languages, with plans to add more, including Chinese.
  • Pre-Loaded MP3 Players: A branded MP3 player with pre-loaded frequency programs will soon be available, allowing clients to carry their healing frequencies with them throughout the day.


The 21-Day Balancing Program is more than just a wellness tool—it's a gateway to a deeper understanding of your body, mind, and energy. By combining advanced technology with timeless principles of holistic health, BioCoherence is setting a new standard in personalized care.Whether you're a practitioner looking to enhance your practice or an individual seeking a transformative wellness experience, the 21-Day Balancing Program offers a comprehensive, customizable solution.  Read the news
22/11/24

BioCoherence 1.17

 The Android version is now available for testing! Explore highlights like 16,000 recomputed audio guidances in four languages, revamped event editing with enhanced usability, and improved biomarker flower displays. The Frequencies feature now includes advanced filtering options, MP3 exports with album metadata, and seamless playback of your last used frequency or meditation directly from the home screen. Zoom into graph zones, enjoy revamped comments, and access intuitive priority and report features. Dive into frequency MP3 sharing and explore its profound benefits with BioCoherence! Read the news
14/11/24

BioCoherence 1.16

 The Android app is ready for testing (v1.15 on the Play Store). A powerful device is recommended for calculations, but most decent devices can run meditations and frequencies smoothly. Highlights: • Languages: Polish, Spanish, and German added (audio guidance translations coming soon). • Prevalence Filters: Filter biomarkers by system in the prevalence screen. • Frequency Export: Faster exports with a 10-minute audio limit. • 21-Day Meditation: Direct access from the Home Screen. • Algorithm Enhancements: Improved detection of priorities and resources with updated evaluations for "low resource score" recipes. • Meditation Lists: View full descriptions for each item with a simple click. Read the news
31/10/24

BioCoherence 1.15

 Apple Watch Import & Meditation Optimizations! Explore the new Home Screen for first-time users, featuring direct Apple Watch import and step-by-step guidance. Enjoy faster file access with delayed heavy calculations until needed in "Understand" or "Analyze" screens. Improvements: • Balance: Offline-ready daily guidances, revamped Balance screen, 21-day journey preview, and a daily progress bar. • Priorities: Enhanced algorithm for precise priority detection and bug fixes, excluding negative drives as resources. Experience streamlined functionality and optimized workflows in this update! Read the news
23/10/24

BioCoherence 1.14
Dear friends,

Version 1.14 is here. Update via TestFlight (it might need one day or more to appear, you will receive a notification from TestFlight when available) or download now on biocoherence.net/beta for Windows, Mac or Linux.

The user webinar series continues

Check the user seminar archives and join us each Thursday at 4PM GMT+2: biocoherence.net/userseminar. Next Thursday (tomorrow...): create and test with lists.

Update highlights: remote tests, sleep mode, progression curves...

  • new option to switch between "play" (decluttered menu) and "understand" (complete menu) on the Home Screen of a report. 
  • new declutterred Home Screen for users that come from a Pro invitation. The Home Screen shows his reports, and the open report now proposes "Play" by default: PDF, frequencies, meditation; and record a test if needed.
  • better share flow from a Pro to a user: the current report is immediately send to the cloud, and if modifications, updates needed to be sent again the cloud are now displayed on top of the screen. There is now an alert on both sides if a report is updated by the other side, prompting to sync with the cloud.
  • List pre-evaluation is now immediately displayed if a scan exists. 
  • Ask for test is now active: a Pro can ask for a remote user to test locally the selected items. As the user opens his app, the test elements are ready to test with his sensor, anywhere in the world, using a real local ECG measurement. The results are sent back to the Pro through our Cloud. (next steps: notification sent to the user that will update the report and open it when clicked. Without notification, the Pro should send an invite to the user, and the user will open the report that will prompt him to update from the cloud).

Balance

  • better insertion of protocol frequencies in the meditation.
  • new screen, with buttons on the bottom and new options in the screen.
  • new daily progression, with meditation changing every day.
  • new graphics in Balance, with the progression of each priority in a nice curve. Display of today's curves, or all priorities curves. 
  • New end choice: "sleep" or "awake". For "sleep", 132 new audio guidance endings, with a long fadeout, and different evaluation of priorities.

Frequencies

  • New loop player in frequencies: loop on a single block (one physiology program and its related protocols, playing again and again until you stop, to push strongly on a particular intended effect). Only available if protocols are added to a physiology program.

Report flow between Pro and User

  • Usually a report is started with a scan or a test on the Pro's Sensor, and decisions are made by the Pro: resources, priorities, frequencies, protocols, comments, etc.
  • The Pro then shares with the User. When clicking "share with the user", the report is immediately sent to our secure Cloud and made available this instant to the user. 
  • If this is a new user, the Pro sends an invite to the user. If not, the user simply starts his app. If both cases, the user logs with his email (that the Pro has entered in his account) and immediately sees the report, and can import it and open it.
  • If the Pro amends the report, he will be prompted to sync it with the cloud at the end of his modifications. This will update the report on the cloud, and the User will see a hint to sync his locally saved report with the cloud.
  • If the User amends the report (usually by recording a re-evaluation or performing a test prepared by the Pro), the same happens with the Pro, that sees a prompt to sync it with the cloud the next time he tries to open it.

Report started by a User

  • in some cases the User can be the one that starts a report, by doing a new recording. In this case, the User has the ability to share it with his Pro (if he has no Pro, he can choose a Pro from the Pro directory first). The Pro will the receive the User in his contacts lists, and can import the report from the cloud and start working on it. When the Pro is done, he just has to click "sync with cloud" and the report is sent back to the cloud, with a prompt to sync it on the user side.



And various bug fixes and graphic improvements.

As usual, we WANT your feedback!

All the best,
Médéric

PS. All our newsletter are archived on biocoherence.net/blog 


 Read the news
14/10/24

BioCoherence 1.13... and a book !
Dear friends,

Version 1.13 is coming. Update via TestFlight (it might need one day or more to appear, you will receive a notification from TestFlight when available) or download now on biocoherence.net/beta for Windows, Mac or Linux.

The user webinar series continues

The 4th seminar is available. Check the user seminar archives and join us each Thursday at 4PM GMT+2: biocoherence.net/userseminar

We need your feedback: help us perfect biocoherence and receive gifts!

We hope you're enjoying your journey with BioCoherence! As a reminder, we are still in the beta phase of development, and we're making great strides toward our full release. Your experience and insights are incredibly valuable to us, and we would love to hear your feedback. Please send us testimonials, ideas or else, and we'll thank you by extending your subscription another free month. Learn more

Now, there's a book on Biocoherence

But now, a big news... my book about BioCoherence is out! The aim of this book is to become the best ambassador for BioCoherence Pros, users and curious alike. That's a whole book coming, more than 300 pages with a lot of background. This will be a general-interest book, open to all, perfect to introduce the world to the concepts in BioCoherence. The book price is 19,99$/19,99$ for the paperback and 9,99$/9,99€ for the Kindle edition.

Sing the Body Electric

Is it possible to make Sense of the Electricity in Your Body? 

This book invites readers to explore the bioelectric nature of the human body in an entirely new way. 
Acting as both a detailed theoretical introduction and a comprehensive practical guide for the BioCoherence software, this book delves deep into how modern technology can assess the bioelectric signals of the heart and uncover thousands of biomarkers related to your physical, energetic, and emotional health. 
Drawing on scientific research, traditional wisdom from systems like Ayurveda and Traditional Chinese Medicine, and advanced algorithms, this book explains how the body's electric fields and resonant frequencies can be analyzed to promote holistic well-being. From heart coherence and meridian energy to brainwave patterns and emotional drives, this book offers a detailed view of how body, energy, and mind are interconnected. 
With personalized meditations, frequency protocols, and cutting-edge biofeedback systems, Sing the Body Electric shows how targeted interventions can balance your health on every level. Whether you're new to bioelectric health or a professional looking to deepen your knowledge, this book provides practical tools, scientific validation, and a new perspective on how the body's electric nature influences overall wellness.
Empower your health and rediscover your body, your energy and your mind with the groundbreaking insights of BioCoherence: learn how every cell, organ and emotion resonates within your body's electric matrix—and take control of your health and personal progress!

Buy on Amazon (Kindle e-book or Paperback, English and French editions)

Now, back to the week's update. 

Update highlights:

Biomarkers:
  • There is no zoom anymore on the top of the biomarker session evolution screen. The switch from play/pause is now controlling the zoom of this graph, along with the ones in frequency, harmony and the new one below. In 'stop' mode, all graphs display the average value for each biomarker, and the whole recording. In 'play' mode, the values are shown at the time of the play head position, and the graphs are zoomed to 50 beats. Just move the play head position to scroll through them. In 'stop' mode with several parts, the zoom also automatically adapts to the current part.
  • New graph in Spectrum: "Polygraph". This screen mainly uses academic biomarkers. This is a convenient way to see in a glance e.g. the VHF, HF, LF and VHF proportions, and a linear graph of up to 7 important curves. This can be used in real time during recording, as all screens (just switch screen during a recording). All these markers come from the academic research on ECGs.
    You can display up to 7 bands of your choice, in parallel or centered on the same line.
    • In "Bands" mode, the 7 lines are: Bpm, HRV, Mayer waves, VHF, HF, LF and VLF.
    • In "Ratios" mode, the 7 lines are: SDNN (Total power), SI (Stress index), IC (Index of Centralisation), LF/HF (Power, vago-sympatethic interaction), LF/VLF (Relax), VLF/HF (Stress) and VLF+HF (Global activity).
    • In "Systems" mode: CNS, Ortho, Symp, Para, IRSA, Immunity, HRV.
    • In "Brainwaves": Delta, Theta, Alpha, Beta, Beta1, Beta2, Gamma.
  • If you do research with this graph, it could be the basis for new insights or new biomarkers. In addition, you can analyse any biomarker in its timeline and with events on the biomarker session evolution screen. 
Contact management:
  • The photo import bug is fixed. Remember, you have to confirm a photo to actually import it.
Meditations:
  • Meditation duration is now dynamically set according to the user's choice.
  • Meditations are now dynamically changing every day. You can set as many priorities as wanted, and they will be included each one in turn in the daily meditation, as needed. Default daily duration is about 30 minutes, and can be changed by the user.
Priorities: 
  • Update on the fourth algorithm is now available: "low resource score". 
Frequencies: 
  • Duration of physiology program set when a protocol is added to a physiology program.
And various bug fixes and graphic improvements.

As usual, we WANT your feedback!

All the best,
Médéric

PS. All our newsletter are archived on biocoherence.net/blog 


 Read the news
03/10/24

BioCoherence 1.12
Dear friends,

1.12 will add some functions and enhance some screens. Update via TestFlight (it might need one day or more to appear, you will receive a notification from TestFlight when available) or download now on biocoherence.net/beta for Windows, Mac or Linux. We've tested it extensively but you never know with bugs, so if you see one in the wild, please use the in-app feedback/bug report (the last entry in the menu) so that we have all the info to fix them quickly. 

Also, check the user seminar archives here and join us each Thursday at 4PM GMT+2: ./userseminar

Update highlights:

General functions: 
  • Confidentiality mode, to blur all names and photos on the screen.
  • General speed enhancements on older devices. Don't expect miracles, the app is still power-hungry. As a general rule, there should be no lag in navigation; if there is, please use a better computer.
  • We don't automatically save recordings anymore if they are short.
  • All texts are now translatable (and translated), including previously hard-coded texts like meridian/points descriptions, MTC recipes etc. We also fixed a bug in Korean where titles were truncated.
  • For your support requests, ticket answer info and management directly in the app.
  • Bluetooth request is delayed until first effective use, instead of first app launch. This is because the app is only allowed to ask for your approval once. If you say no, there is no way to allow the app to request Bluetooth again, you have to go to the systems preferences and find a way to check the acceptance - or just reinstall the app... For this reason, there is a new message in the Bluetooth panel, if by mistake the initial request had been denied.
  • "Read Manual" now opens in your browser. That also allows downloads of the PDF manuals.
Biomarkers:
  • New "prevalence" screen, to list all biomarkers by petal state. This can help identify patterns and better understand the general image of a scan.
Contact management:
  • Edit your own data from the home page now leads to "my account".
  • Birth date and notes are now hidden by default. Click on "more infos" to show them. We don't use this info for now, it is only for your reference. We will also add height, weight and some other health data for future age-, height- and weight-related biomarkers.
Frequency program:
  • Durations are now expressed in Elfie values.
  • Total export duration in .wav or .mp3 is automatically adjusted for very long programs, as a too long audio file might crash the app. Exports are limited to about 30 minutes, with an automatic adjustment of all programs to fit the available possible duration.
  • Exports defaults to mp3 in one-clic. If you cancel the mp3 part by clicking "stop encoding", it will propose you to export the .wav instead. The whole process is done in background and you can use the app meanwhile, but don't reduce the app or hide it while it exports, as this will result in the app losing computing resources and the export taking ages. 
Report:
  • New button in the report tools to send the PDF by mail to the customer in 1 clic. The PDF is uploaded to our cloud and the mail is sent from our server, so the sender is reports@biocoherence.net, not you. If you want to be the sender, you have to use the "share" function, or save it and attach it to your regular email app.
  • PDF export and save now works on Windows, Mac and Linux. Additionally, you can export as .htm, which is a modifiable format, if you want to edit it.
Meditations:
  • The French voices are now entirely available. (the English voices will be cleaned later this month to fix the small glitches)
  • Lists with type "Meditation": if you select multiple items from the same meditation list, they will be played sequentially, one per day. This shows on the report and in the meditation text. In this way, the meditation also evolves every day in a progression.
Priorities: 
  • A fourth algorithm is now available: "low resource score". When you explore priorities, this will be presented first (before "in sync"," interesting energy" and "interesting agitation"), and will show the elements with the lowest resource score (the contrary of the resources panel, so to say).
Personality, momentums and drives:
  • some enhancements in these important screens:
  • Personality: now shows some information texts to explain the 4 axis and the position in the scan, and also the stability or flexibility of this position.
  • Momentum: restraints are now split in 2: geopathy and biology.
  • Drives: the average between the positive part and the negative part of each emotion is now clearly shown. You can now clearly see the baseline between the positive and the negative part of each bar. More enhancements to come for this screen, because it might be one of the screens you end up spending the most time - it is so interesting...
Manual
  • the manual will be updated with the contents of the user webinars. This will be done each week after each user seminar...

As usual, we WANT your feedback!

All the best,
Médéric


 Read the news
25/09/24

Our user webinar series starts: each thursday at 16:00 (EU time), starting tomorrow

 Dear BioCoherence users,

As promised, we are starting our weekly User webinar series that will take place each Thursday at 16:00 European time (GMT+2) in English, starting tomorrow!

You can join us for free in the Zoom call (the link is on biocoherence.net/userseminar). All calls are recorded and will be available in the app for all users, so if you don't want to appear in the recording, please don't turn your camera on. 

We plan to make each Thursday webinar on only one of the app feature, digging from start to finish on its concepts, usage and applications. The duration should be 45 minutes max.

Each Thursday webinar is open to questions, so you can prepare some questions and they will be answered during the zoom.

We are looking to see you each Thursday! And if you can't make it, everything will be archived on biocoherence.net/userseminar (you will find the weekly invite link there too).

FIRST SEMINAR
The first seminar will be on making a new record, and reading resources and priorities.
 Read the news
20/09/24

BioCoherence 1.11
Dear friends,

It's that magical time again: a new update!

1.11.7 will continue with guided meditations and improve recording and frequency exports. Update via TestFlight (it might need one day or more to appear, you will receive a notification from TestFlight when available) or download now on biocoherence.net/beta for Windows, Mac or Linux. We've tested it extensively but you never know with bugs, so if you see one in the wild, please use the in-app feedback/bug report (the last entry in the menu- so that we have all the info to fix them quickly. 

Including:

Meditations module: 
  • Improvements in interface, cloud loading and software. English is complete; French is almost complete and will be in approximately one week. 
  • Please note: this is still a preview and some texts have small glitches. We are still refining and polishing all texts.
  • Improvement in certain part, like meridians and chakras (now with specific sounds), chords ...
Frequency module:
  • Add protocols directly from the frequency program page: improvements in protocol selection.
  • Export in .wav or .mp3 the frequency program. Now defaults to mp3. It works better, and even, it does not crash anymore in certain circumstances, which is definitely better. Also, the export(save as) function now works on versions for Windows, Mac and Linux.
  • More frequencies added and played during testing and harmonisation on biomarker and protocols.
Report:
  • Print and save as now works on versions for Windows, Mac and Linux. (saves as .htm and not .pdf for now).
Lists:
  • Many behind-the-scene enhancements in cloud lists management (pictures, dynamic loading, invitation code for a private list...). Picture is now displayed in big during the individual test.
  • On large screens (computers), lists are presented in a new multi-column view.
  • Pictures are now front and big. Try the herbs, essential oils or aromas lists!
recording:
  • we've tackled the various Bluetooth problems when recording and it seems much more reliable now. It even seems Bluetooth now works on Linux. But who is on Linux here, except Antoine? :)
Various:
  • quickopen files are entirely recalculated in they are from a former version, to take new algorithms and biomarkers into account.
  • much quicker interface on iPad, Windows, Mac and Linux versions.
  • various fixes and improvements (particularly in the Bluetooth and recording section).
  • various blockages and crashes fixed.
As usual, we WANT your feedback!

All the best,
Médéric


 Read the news
09/09/24

BioCoherence 1.10
Dear friends,

It's that magical time again: a new update!

1.10.7 will introduce you to guided meditations. Update via TestFlight (it might need one day or more to appear, you will receive a notification from TestFlight when available) or download now on biocoherence.net/beta . We've tested it extensively but you never know with bugs, so if you see one in the wild, please use the in-app feedback/bug report (the last entry in the menu- so that we have all the info to fix them quickly.

Including:

Meditations module: 
  • Guided meditations preview: actual audio guidance (in English only for now). almost 4000 custom-made audio guided meditations parts in each language.
  • Please note: this is still a preview and a lot of texts have small glitches. We are still refining and polishing all texts and the actual correct guidances will be available later in the month.
  • Includes all specific sounds, binaural beats and frequencies, chords with breath work (we have more than 450 chords in our chord detector and we play the one that has been measured in the client's energy), and some specific sounds linked to meridians, chakras, etc. (my goal is to have different ambiences for the different parts: intro, organs, chakras, meridians, drives, emotions etc.)
  • You can target the desired duration of the meditation.
Frequency module:
  • Add protocols directly from the frequency program page.
  • Export in .wav or .mp3 the frequency program. You can then use this audio file to balance the frequencies through any audio player, the client's smartphone, or use any kind of transducer to apply them electrically or magnetically locally from any audio jack output.
  • In any case, the complete frequency program is inserted in the audio meditation, as binaural beats or frequencies.
Progress:
  • you can now add as many "favorites" biomarkers as needed to see them all in the progress page.
Lists:
  • New list type: Product. Build AI-assisted product  lists: automatic product contents retrieval; automatic organ effects assessment via our AI cloud. Also, automatic preselection of suggested images. You can then pre-evaluate with the client's scan in all this product catalog, and confirm with individual tests.
  • New list type: Meditation, with AI-enhanced writing and request for audio file (the meditation, if approved, will be available in the same voice as the other meditations). It will event try to find what organs might be balanced with this particular meditation. You can then pre-evaluate them, confirm them with an individual test if needed, and add them in 1 clic to the client's meditation.
Various:
  • the app is now available as a preview in Korean (corrections pending). We are open to suggestions as to what new languages we should work on for the interface, please tell us!
  • various fixes and improvements (particularly in the Bluetooth and recording section).
I am particularly happy with this new custom-meditation tool. This is what I tried to do already in 2017 but it didn't work really. Now, it does! In essence, you can add an item to your meditations list, provide a title, just describe what the meditation should do and the necessary steps to go through, and our AI will write an audio guidance made to be inserted into the client's meditation. You review it and, if you are happy with it, you just click a button to request the audio. A few days later, it becomes available to be inserted in a meditation.
I created a first public list "energy techniques" with meditation bits I wrote back in 2013 and it's amazing. You can now do EFT or EMDR into a meditation and then work on your priorities. It's mind-blowing, but I'm ready to be even more mind-blowed with all the meditation ideas you will come with!



All the best,
Médéric


 Read the news
19/08/24

BioCoherence 1.9.23
Dear friends,

It's time for an update... 1.9.23. Almost everything is in here, except for the actual audio meditation... update via TestFlight (it might need one day or more to appear, you will receive a notification from TestFlight when available) or download now on biocoherence.net/beta . We've tested it extensively but you never know with bugs, so if you see one in the wild, please use the in-app feedback/bug report (the last entry in the menu- so that we have all the info to fix them quickly.

We had a webinar last Friday to explore these novelties; you can see it here: https://youtu.be/ouB8FqN61pA (subtitles in English, French and Korean...) - and we plan to host weekly webinars starting in September, in different languages.

Including:

Meditations module: 
  • An infinity of custom-made audio guided meditations with more than 3800 combined parts per language and per guide
  • preview of the full meditation text in the balance module
  • full personalised 30-min to 1-hour meditation based on resources and priorities, with spoken words guidance, specific frequencies and personal musical elements and rhythms, as measured in the pulse. (available in 2.0)
Frequency module:
  • Physiology, emotions and energy biomarker balance: more than 10000 specific frequencies for more than 1000 different programs
  • Therapeutic, pathologic and improvement protocols: more than 7000 balance-oriented therapeutic and improvement frequencies and binaural beats in 2500 specific protocols
  • test of any individual balance program or protocol with immediate biofeedback answer
  • remote test through our cloud (available in 2.0)
  • audio frequencies player on each biomarker for immediate balancing and protocols choice with pre-evaluation
  • construction of a specific frequency program with biomarkers balance and protocols attached to specific biomarkers (a protocol is played encoded on a specific biomarker balance program to direct its resonance to the part needed); play and export of frequency program (export available in 2.0)
 Report:
  • now includes more than 6500 new interpretation texts (description, action, emotional interpretation, biomarker quality)
  • now includes the full meditation text
Priorities
  • new "explore" button to refine priorities
  • 420 TCM points now computed with links, resources and priorities
  • drives and momentum now computed as priorities and resources
  • subdoshas now computed as priorities and resources
  • reworked resources panel
Personality:
  • refined algorithm
Various:
  • new filetype choice: quick open or small (defaults now to quick open, with no compute necessary on open)
  • various interface improvements


Please remember we are still in beta and we created a launch promotion with all licenses at 50% discount, for life. If you subscribe now, you will get the 50% rebate for as long as you keep your subscription, or the 50% rebate on the lifetime licence that includes all future updates. This promotion ends on sept. 1.


All the best,
Médéric


 Read the news
20/07/24

BioCoherence 1.9.9 and launch promotion
Dear friends,

the update to 1.9.9 is available... update via TestFlight (it might need one day or more to appear, you will receive a notification from TestFlight when available) or download on biocoherence.net/beta

Including:
  • various graphic fixes
  • record animation stops if measure stops
  • new measure quality indicator during recording
  • new recording features: auto-stop when sufficent data
  • recording and live biomarkers compute optimizations 
  • bigger client image on home screen, now static
  • technical log now sent with support ticket
  • 'reports' are now 'recordings' to avoid confusion with the PDF report 
  • new PDF report editing tools (comments, hide sections...)
  • new PDF report feature: preview from recording lists
  • promo: the chakras screen is free access for all

Launch promotion

As you can see, we can't stop adding new functions to the app, and it will not stop here, we simply have too many ideas.

If you want to support our work, please subscribe to the app. This research and whole endeavour is entirely self-funded (we have no investors and don't plan to have) and your support will give us a tremendous energy and the means to go further together.
All subscriptions come with lifetime updates, including the lifetime licences (if you don't like paying a subscription, the lifetime licence is a pay-once solution).
Please remember we are still in beta and we created a launch promotion with all licenses at 50% discount, for life. If you subscribe now, you will get the 50% rebate for as long as you keep your subscription, or the 50% rebate on the lifetime licence that includes all future updates. This promotion ends on sept. 1. And, if you decide to subscribe now, your actual billing period will only start on sept. 1: until then, you will have a free Pro invitation code with all functions unlocked, whatever the subscription you chose.


All the best,
Médéric


 Read the news
19/07/24

What are your questions for our upcoming BioCoherence webinar?

Submit Your Questions for the BioCoherence Q&A Webinar! 

Hi, 

We're excited to announce that we will be recording a comprehensive and easy-to-understand overview of BioCoherence next week, featuring a Q&A session with Mederic, the creator of BioCoherence.

This is your opportunity to get your questions answered directly! If you have any questions about BioCoherence, its features, or its applications, please submit them in advance by answering to this mail, and we will address them during the session. 

To help you get started, you can read our "Wow! But How?" article for a deeper understanding of the technology behind BioCoherence. 

If you have any questions or need more information, please feel free to reach out to me. You can contact me via phone, WhatsApp, or Telegram at +33 7888 25004, or simply reply to this email. 

Looking forward to your participation and hearing your questions! 

Best regards, 
Stephen McCormack
 Read the news
04/07/24

BioCoherence 1.8.8
Dear friends,

the update to 1.8.8 is available... update via TestFlight (it might need one day or more to appear, you will receive a notification from TestFlight when available) or download on ./beta

Including: 
  • Reports: 
    - much quicker processing
    - some biomarkers were not clickable. Now you can click on all biomarkers, including recipes, to get more info (it opens the bottom biomarker panel, that also includes direct links to the relevant scan pages)
    - new top menu for quick access to report sections. 
    - possibility to share/make pdf/print only the active section as selected in the top menu. To print the whole report, just click "Whole" (the first element in the top sections list) before printing.
    - new report subtitles
Also, to the question "wow! but how?", I wrote a blog post here. It is a bit technical so Stephen suggested I tuned it down. I added the tuned-down version as an intro... tell me what you think :)

All the best,
Médéric
 Read the news
04/07/24

Wow! but how?

Hur BioCoherence-teknologin fungerar

Wow! Men hur? Detta är den huvudsakliga frågan som nya användare ställer efter sin första skanning.

Låt mig förklara i enkla termer. Om du föredrar att gå djupare finns det en mer detaljerad förklaring efter detta.

Snabb förklaring

Från rå inspelning till insikter

BioCoherence börjar med en EKG (elektrokardiogram) inspelning, med en medicinskt certifierad sensor. Medan den primärt registrerar hjärtats elektriska aktivitet, fångar sensorn också den elektriska aktiviteten i hela kroppen, från vänster finger till höger finger. Dessa omfattande data visas som den huvudsakliga EKG-inspelningen, som domineras av hjärtats rytm men också visar andra subtila elektriska aktiviteter.

Databehandling och analys

Rådata till funktioner: Den initiala EKG-inspelningen inkluderar både den huvudsakliga hjärtrytmen och andra elektriska frekvenser. Automatisk filtrering utesluter problematiska slag (t.ex. på grund av rörelse), vilket möjliggör noggrann analys.

Flervalsanalys:

  1. Första ordningens analys:
    • Extraherar primära data från EKG, såsom specifika frekvenser (VLF, LF, HF) och tidsbaserade intervall (HRV).
    • Använder omfattande publicerad forskning för att härleda akademiska biomarkörer.
  1. Andra ordningens analys:
    • Analyserar förstahandsdata för att avtäcka nya egenskaper, såsom harmoniska och entropi.
    • Beräknar ytterligare biomarkörsinformation, inklusive kvaliteter som uppmärksamhet och avsikt.
  1. Tredje ordningens analys:
    • Identifierar samband och resonanser mellan element, som visar energiska relationer (t.ex. mellan organ).
    • Använder komplexa algoritmer för att beräkna TCM-recept och relaterade element.
  1. Fjärde ordningens analys:
    • Beräknar resurser och prioriteringar, vilket indikerar vilka biomarkörer som är mest betydelsefulla.
    • Integrerar fynd i en sammanhängande översikt av användarens hälsa.

Användarfördelar:

  • Skanningsmodul: Ger detaljerad biomarköranalys, kroppskartor och diagram.
  • Testmodul: Erbjuder realtids biofeedback och ett öppet skapandesystem.
  • Balansmodul: Genererar anpassade meditationer och rapporter.

Värde i vardagen: Fokuserar på högre ordningens information (resurser, prioriteringar) som erbjuder de mest praktiska insikterna för användare, samtidigt som det fortfarande möjliggör tillgång till all detaljerad data.

Avslutningsvis använder BioCoherence avancerade matematiska algoritmer för att omvandla rå EKG-data till värdefulla hälsainsikter, vilket erbjuder en flervalsanalys som avslöjar omfattande information om kroppens elektriska aktivitet. Detta innovativa tillvägagångssätt ger användare handlingsbar data för att förbättra sitt välbefinnande.


Djupgående förklaring

Låt oss gräva djupare... Jag kommer att försöka svara så djupt som möjligt utan att gå in på tekniska områden...

I början var den råa inspelningen

BioCoherence börjar med en EKG-inspelning. EKG står för « elektrokardiogram » vilket betyder att vi använder en medicinskt certifierad enhet (vår Sensor) som främst är avsedd för att registrera hjärtats elektriska aktivitet. Men det finns en hake: hjärtat är det mest kraftfulla, men är inte det enda organet i kroppen som har en elektrisk aktivitet. Vi vet att hjärnan gör det (det visas på en EEG, ett elektroencefalogram), men i själva verket har varje organ, varje atom, varje system en magnetisk och elektrisk aktivitet. När vi mäter från vänster finger till höger finger, registrerar sensorn mycket mer än bara hjärtats pulsfrekvens: den registrerar hela kroppens magnetiska och elektriska aktivitet.

Så det första vi har är en massa elektrisk information, som visas som den huvudsakliga EKG-inspelningen. Detta domineras tydligt av hjärtslagets huvudrytm, men det finns många saker som pågår under denna huvudaktivitet, och det visas i BioCoherence som den grå linjen som vibrerar runt huvudvågen. Här kommer vi att hitta data för att återskapa tusentals biomarkörers aktivitet.

Du kan se det på frekvenssidorna: nära botten av frekvensgrafen har du alltid en mörk linje som är den viktigaste frekvensen (pulsen), men du kan också se många andra frekvenser som är närvarande i inspelningen. Denna frekvensgraf är ett annat sätt att se inspelningsvågen, genom att omvandla tidsbaserad information till en frekvensbaserad graf; men detta är fortfarande samma råa information.

Vi har lagt till lite automatisk filtrering för att utesluta de slag som är problematiska (eftersom, till exempel, användaren rörde sig och den elektriska signalen var utanför skalan i några sekunder), och vid det laget kan vi börja analysera denna inspelning för att extrahera funktioner.

Emergenta egenskaper

I systemteori finns det ett viktigt begrepp kallat « emergenta egenskaper ». För att vara kortfattad säger det att, med varje ny nivå av komplexitet uppstår nya egenskaper som inte direkt härleds från egenskaperna på den lägre nivån. Till exempel kan du blanda 2 mycket brandfarliga gaser (syre och väte) och få en stabil vätska (vatten) som har egenskaper som är omöjliga att gissa från dessa gaser. Det är därför vi gör en flernivåanalys, där varje nivå använder egenskaperna från den föregående nivån, och varje nivå avtäcker nya relationer som inte kunde existera på den föregående nivån.

Allt detta görs helt och hållet med matematik. Till skillnad från majoriteten av andra « energibedömningsenheter » som mestadels baseras på slumpmässiga talgeneratorer, baseras algoritmerna i BioCoherence helt på matematik, och därför kommer resultaten alltid att vara exakt desamma för en inspelning. Faktum är att hela beräkningen görs om varje gång du öppnar en inspelning.

Då kommer en förstahandsanalys

Nu kommer våra algoritmer att göra en förstahandsanalys av dessa rådata för att extrahera förstahandsinformation. Detta kan komma, till exempel, från specifika frekvens- eller frekvensområden (som för VLF, LF eller HF) eller tidsbaserad intervallanalys (som för HRV).

Vi har använt mycket publicerad forskning från en mycket bred variation av ECG-forskare som vanligtvis inte pratar med varandra för att komma fram till långa listor av information som vi extraherade på denna nivå.

Denna förstahandsanalys ger oss främst de akademiska biomarkörerna, eftersom detta vanligtvis är där officiella forskningar stannar. Detta beror på att signalbehandling vanligtvis är ganska begränsad inom medicinsk forskning*, medan jag tillämpade musikalisk signalbehandling som är mycket mer avancerad. Eftersom DSP:er (digitala signalprocessorer) ersatte analog behandling inom musik sedan 90-talet, har en enorm mängd forskning genomförts för att förstå, emulera och bearbeta digitala inspelningar med många verktyg som ljudeffekter eller olika verktyg för att justera ett digitalt musikaliskt innehåll i realtid. Dessa är i grund och botten samma algoritmer som vi använder i BioCoherence: avancerad matematik som ljudtekniker känner till inom musikbehandling men som ingen använder inom medicinska tillämpningar.

*: på en parentes, alla skämtar om att en granskad artikel publicerades 1994 som förklarade en mycket ny metod för att beräkna ytan under kurvan (storslaget kallad AUC) av ett elektrokardiogram. Detta ansågs tillräckligt intressant för att publiceras i en granskad tidskrift. Men, som alla med lite matematikträning vet, kallas detta en « integral », lärs ut på college och har upptäckts för många århundraden sedan. Ändå är de flesta officiella forskningar på denna nivå av matematik.

Saker börjar bli intressanta i andra ordningens analys

När vi har dessa förstahandsdata får vi nya egenskaper och vi kan göra flera andra ordningens analyser av dessa nya egenskaper. Till exempel, som en förstahandsanalys beräknade vi ett spektrum: tack vare en matematisk algoritm kallad FFT (Fast Fourier Transform), kan vi visa den råa inspelningen som frekvenser istället för en våg. Nu, i en andra ordningens analys kommer vi att beräkna ett Cepstrum (som är en 2nd ordningens FFT) som gör att vi kan extrahera inte frekvenserna, utan harmonikerna i signalen: med ett ord, det extraherar frekvenserna som resonerar harmoniskt tillsammans. Med hjälp av dessa resultat kommer vi att få några nya biomarkörer.

  • Ett exempel på en annan 2nd ordningens analys är beräkningen av entropi (eller « agitation ») av varje biomarkör. Med ett ord, det visar hur en specifik biomarkör är statisk eller agiterad.
  • Andra exempel på 2nd ordningens analyser är de egenskaper vi visar till höger om en biomarkör, som uppmärksamhet, avsikt och horisont (egenskaper extraherade från deras musikaliska kvaliteter), och huvudcykler.

Det finns många 2nd ordningens analyser gjorda på signalen, och så får vi många nya biomarkörsinformationer. Men vi kommer inte att stanna här, eftersom denna nya nivå avslöjar några nya intressanta egenskaper som inte fanns tidigare.

Återigen, vi använde mycket publicerad forskning av en mycket bred variation av forskare, nu inte på EKG-data, utan på terapisspecifika data som Ayurveda, TCM, energetisk bedömning eller modern medicinsk vetenskap.

En tredje ordningens analys: länkar och resonanser

Nu kommer en annan nivå av komplexitet med sina nya underverk. Med all 2nd ordningens nya data vi har kan vi beräkna nya egenskaper, som till exempel, länkar mellan element. Dessa länkar visas överallt i appen, som på grafer eller kroppskartor; de gör att vi kan förstå de huvudsakliga energetiska relationerna mellan, säg, organ: om ett organ är kopplat till ett annat kan det indikera att en energitransfer äger rum, och en hjälper eller blir hjälpt av den andra.

Dessa länkar beräknas med en ganska komplex multidimensionell algoritm som använder avancerad vektormatematik för att extrahera gemensamma resonanser mellan element. Men vi försökte dölja denna komplexitet och endast återge resultatet, som är tydliga länkar mellan elementen.

  • Som en del av processen har vi beräknat mängder av data och det visar sig som « länkegenskaper » och länkade element för varje biomarkör.
  • Ett annat exempel på 3:e ordningen är beräkningen av TCM-recept. Vi har bakåtstrukturerat logiken för TCM-recept, som använder flera akupunkturpunkter för att bota specifika symptom. Genom att vända på det säger vi: om dessa punkter är kopplade av dessa 3:e ordningens egenskaper, kan det indikera det associerade symptomet för deras grupp.

Återigen använde vi publicerad forskning om terapi-specifik data. Förutom TCM-recept kommer logiken för länkar från arbetet av många utövare vi har samarbetat med, som försöker gå upp i den kausala kedjan för att hitta grundorsaker.

Varför inte gå längre?

Okej, medan vi är igång, låt oss fortsätta med dessa nya framträdande egenskaper och göra en analys på 4:e nivån. Med alla dessa nya datapunkter kan vi nu beräkna resurser och prioriteringar. Resurser beräknas av en algoritm på 4:e nivån som använder information från alla lägre nivåer för att beräkna ett enda « resursvärde », som visas på resursidan (när du klickar på en resurs för att ändra den om det behövs). Det indikerar hur en biomarkör i en given familj är « högst upp i generositetens kedja ». Resursteorin kommer från Christine Degoys arbete och förklaras mycket mer i hennes kommande böcker.

Prioriteringar, å sin sida, är på något sätt underdogen, de « längst ner i näringskedjan » delarna. De extraheras från information på 3:e ordningen och nedåt, enligt energi, agitation eller koherens i en given biomarkörfamilj. Eftersom vi har beräknat energi, agitation och koherens, kan vi nu sätta som prioriteringar de för låga energinivåerna, de för höga energinivåerna, de för statiska och de för agiterade elementen, samt de koherenta systemen som kan indikera att något är på gång.

Och nu, låt oss dansa baklänges

Låt oss gå tillbaka till vårt H2O vattenexempel. När du först ser vatten analyserar du det inte utifrån dess gasformiga komponenter. Du ser bara egenskaperna på hög nivå: att du kan dricka det; att du kan simma i det; att det kan blandas med andra element, osv. Vanligtvis när vi ser ett komplext system ser vi det utifrån och vi ser bara egenskaperna på hög nivå. Och varje gång vi avtäcker en ytterligare nivå av ordning, inser vi hur användbar den var för vardagliga användare. Så, i BioCoherence tenderar vi att vända vikten av informationen och börja med resurser (en 4:e ordningens information), prioriteringar (en 3:e ordningens information), biomarkörblomma (en 2nd ordningens information) och biomarkörkvaliteter (en 3:e ordningens information). Det är fortfarande möjligt att gå ner till den första ordningens information (vågen och spektrumet) men vad som ger mest värde i vardagen är de högre nivåerna.

Komplexitetsordningarna visas genom de övre högra pilarna på startsidan (de kan klickas för att göra om beräkningarna på varje nivå), men menulogiken (och rapportordningen) är omvänd: den börjar med de övre nivåerna (balans: resurser, prioriteringar och rapport) eftersom detta vanligtvis är den viktigaste informationen att börja med.

Och det är allt för skanningsdelen.


Read more
01/07/24

BioCoherence 1.8.2
Dear friends,

the update to 1.8.2 is available... update via TestFlight or download on ./beta

Including: 
  • Tests on home page (you can now start by a test). For instance, you can start with any test and then directly go to the Scan pages when the test is done, as the scan will be calculated anyway at the end of the recording. When you start with a test, there is no pre-evaluation as there is no recording, but there will be a post-evaluation based on the recording, once finished.
  • Balance page improvements. That is only layout for now, the meditation/frequencies part is still under development.
  • File duration added in list. 
  • Blank menu bug fixed, parts calculations for comparison fixed, and some minor bugs. 
  • Added 2 or 4 family accounts for Me Essential and Me. Based on a user suggestion, it seems fair to allow family members to have a distinct account even in the Me subscription. Besides, it allows Me users to test the Client management system.
  • New menu entry: Open manual.
  • Tutorial videos in English are all online. You can access the videos directly in-app or on ./tutorials
  • Share: new "save on cloud" menu element. For now, all recordings are kept private on your device, unless you click "save on cloud"; the recordings are then sent to our own secure server and become available for your other devices or to share with a client or a Pro.
  • Better test measurement visualisation. There is now a text while calibration, a countdown of test items, and some layout improvements. The record part is also now always on the bottom part of the screen.
  • Better Bluetooth connect panel. Still some improvements to come. 
  • Better biomarker lists and links on chakras. We added some information on chakras - there are still plenty of ideas and data for future improvements.

All the best,
Médéric
 Read the news
20/06/24

BioCoherence 1.7
Dear friends,

the weekly update (1.7.9) is available... update via TestFlight or download on https://biocoherence.net/beta

Including: manual and help on home page. Lang change changes meridians and precomputed biomarkers too. Better Bluetooth indicator on Windows and Mac (the "bluetooth off" state was skipped; now it is properly tested). Improvements in Test lists edit: images on lists and list items, and better list items action edit. You can also now place list items on an image, opening the door for testing list items placed on your maps, 2D plans, logical graphs etc. (more will come in a next update on the Test section).

And, at last, tutorial videos in English are coming (not all yet but it is going on; around 10 are online, and we expect to finish 25 of them next week). When all is done, we can expand to other languages. You can access the videos directly in-app or on https://biocoherence.net/tutorials and, while not complete, see the existing ones directly in the YouTube playlist.
I've also clarified the biocoherence.net homepage on the fact that it is possible to do a remote scan with the sensor.

--

Thanks for all your feedback! I'm eager to make things better with your ideas and remarks and I really appreciate you taking the time to tell us what you feel or need regarding any aspect of the app, so that we can improve it. You can even use the "ideas and questions" menu, that allows you to send us a screenshot of any page that you can annotate. 

About that: Stephen is now in the team and will handle English-speaking support and he could get in touch with you regarding your needs. You can write him directly if you wish via the contact form.

All the best,
Médéric
 Read the news
07/10/23

Bibliografi

Tillägg 3.
Bibliografi

  1. "Prology: uppfyll ditt livsprojekt - Bok 1: sjukdom, läkning, transmutation: resursvägen" av Christine Degoy
    En innovativ guide som återutforskar hälsa och välbefinnande genom en systemisk ansats, vilket möjliggör att du omdefinierar din existens och får tillgång till en djupare förståelse av ditt livsprojekt. Denna bok ger dig verktygen du behöver för att odla inre kommunikation, förändra din uppfattning om verkligheten och fullt ut förkroppsliga din raison d'être.

  2. "Prology: återupptäck livets mening - Bok 2: Livsprojektet i kroppen: förstå, lås upp, transmutera" av Christine Degoy
    Dyk ner i prologisk organdekodning för att upptäcka hur varje del av din kropp speglar djupare dimensioner av din existens. Denna bok utforskar kopplingarna mellan dina livserfarenheter och din fysiska hälsa och erbjuder nycklar till att förstå, låsa upp och transmutera energiblockeringar. Genom att fokusera på inre resurser och dolda potentialer bjuder denna bok in dig att omfatta ditt livsprojekt genom en holistisk vision, vilket möjliggör att du harmoniserar din kropp och själ för ett fullt ut levt liv.

    Energi och elektrisk medicin

  3. "Kroppen Elektrisk: Elektromagnetism och Livets Grundvalar" av Robert Becker och Gary Selden
    Denna banbrytande bok utforskar den mänskliga kroppens elektromagnetiska fält och dess djupgående konsekvenser för läkning, energiflöde och hälsa. Beckers forskning om bioelektricitet ger viktiga insikter för att förstå vetenskapen bakom kroppens energisystem.

  4. "Gnistan i Maskinen: Hur Akupunkturens Vetenskap Förklarar Västerländsk Medicins Mystik" av Dr. Daniel Keown
    Dr. Keowns arbete överbrygger klyftan mellan västerländsk medicinsk vetenskap och den antika praktiken av akupunktur, och erbjuder en omfattande förklaring av hur energi flödar genom kroppen och hur den kan utnyttjas för läkning.

  5. "Energimedicin: Den Vetenskapliga Grunden" av James L. Oschman
    Denna bok erbjuder en grundlig utforskning av vetenskapen bakom energimedicin, och presenterar bevis för hur elektromagnetiska fält, meridianer och andra energisystem påverkar hälsan. Oschman drar från fysik och biologi för att förklara kroppens energisystem på ett sätt som kompletterar både konventionella och alternativa läkande metoder.

  6. "Vibrationsmedicin: Den #1 Handboken för Subtila Energi Terapier" av Richard Gerber
    Gerbers klassiska text är en viktig resurs för att förstå området subtil energi medicin. Den ger en detaljerad översikt över energifält, chakran och hur vibrations terapier fungerar för att hela kroppen och sinnet.

  7. "Korsströmmar: Farorna med Elektrosmuts, Löftet med Elektromedicin" av Robert O. Becker
    Beckers uppföljare till Kroppen Elektrisk, denna bok undersöker hälsoimplicationerna av modern elektrisk teknik, samtidigt som den också utforskar hur elektromagnetisk terapi kan hjälpa till vid läkning.

  8. "Trojans Biologi: Frigöra Kraften av Medvetande, Materia och Mirakel" av Bruce H. Lipton
    Denna bok fördjupar sig i skärningspunkten mellan biologi och tro, och visar hur sinnet påverkar kroppen på cellulär nivå. Lipton förklarar hur energifält och medvetande påverkar biologiska processer.

  9. "Fältet: Sökandet efter Universums Hemliga Kraft" av Lynne McTaggart
    McTaggart utforskar banbrytande vetenskap om nollpunktsfältet, ett universellt energifält som kopplar samman all materia. Denna bok erbjuder insikter om livets energiska natur och hur vi kan utnyttja denna energi för läkning.

  10. "Läkning är Spänning: Handboken" av Jerry Tennant
    Dr. Tennant förklarar hur spänning i kroppen, särskilt på cellulär nivå, är avgörande för hälsan. Han ger en omfattande bild av hur upprätthållande av korrekt elektrisk potential är grundläggande för läkning och välbefinnande.

    Modern Spiritualitet

  11. "My Big TOE (Theory of Everything)" av Thomas Campbell
    En omfattande trilogi som utforskar verklighetens natur, medvetandet och kopplingen mellan det fysiska och metafysiska. Campbell, en fysiker och medvetandeforskare, blandar vetenskap och spiritualitet för att presentera en modell av existens som stödjer meditation, förändrade medvetandetillstånd och förståelsen av energi i universum.

  12. "The Mind Illuminated: A Complete Meditation Guide Integrating Buddhist Wisdom and Brain Science for Greater Mindfulness" av John Yates (Culadasa)
    Culadasas guide är en grundlig, steg-för-steg-förklaring av meditationspraxis som är förankrad i både gamla buddhistiska läror och nutida neurovetenskap. Den överbryggar klyftan mellan traditionella meditationstekniker och moderna vetenskapliga förståelser av hjärnan.

  13. "Altered Traits: Science Reveals How Meditation Changes Your Mind, Brain, and Body" av Daniel Goleman och Richard J. Davidson
    Denna bok dyker ner i den vetenskapliga forskningen kring meditation och utforskar dess djupa effekter på hjärnan och kroppen. Goleman och Davidson drar från årtionden av forskning för att förklara hur meditation leder till bestående psykologiska och fysiologiska förändringar.

  14. "Waking Up: A Guide to Spirituality Without Religion" av Sam Harris
    Sam Harris, en neurovetenskapsman och filosof, presenterar en rationell syn på spiritualitet och meditation, förankrad i både vetenskap och personlig erfarenhet. Hans bok fokuserar särskilt på hur meditation kan leda till djupa förändringar i perception och förståelse av medvetandet, utan behov av religiösa ramverk.

  15. "The Power of Now: A Guide to Spiritual Enlightenment" av Eckhart Tolle
    Tolles mycket lästa bok betonar vikten av medvetenhet och att vara närvarande i stunden. Hans läror erbjuder praktiska insikter om hur man kan leva mer fullt och medvetet, vilket stämmer överens med de energiska och mentala aspekterna av välbefinnande som diskuteras i Sing the Body Electric.

  16. "Real Magic: Ancient Wisdom, Modern Science, and a Guide to the Secret Power of the Universe" av Dean Radin
    Radin, en ledande forskare inom parapsykologi, utforskar den vetenskapliga evidensen för fenomen som telepati, precognition och psykokinesi, och drar kopplingar mellan medvetande, energi och den bredare strukturen av verklighet. Denna bok ger en grund för att förstå andra verkligheter bortom det fysiska.

  17. "The Physics of Consciousness: The Quantum Mind and the Meaning of Life" av Evan Harris Walker
    Denna bok dyker ner i kvantfysik och dess relation till medvetandet. Walker utforskar observatörens roll i kvantmekanik och presenterar en teori som hävdar att medvetandet är grundläggande för universum och bidrar till en bredare förståelse av energi och existens.

  18. "The Secret Doctrine" av H.P. Blavatsky
    Denna grundläggande text inom teosofi utforskar universums natur, medvetandet och den andliga evolutionen.

  19. "The Perennial Philosophy" av Aldous Huxley
    Huxley undersöker de gemensamma trådarna av spiritualitet över olika religioner och betonar universella sanningar.

  20. "Human Destiny" av Pierre Lecomte du Noüy
    Denna bok utforskar skärningspunkten mellan vetenskap, filosofi och religion och argumenterar för att mänsklig evolution styrs av ett gudomligt syfte. Den diskuterar mänsklighetens andliga potential och de moraliska ansvar som följer med mänskligt medvetande.

  21. "The Road to Reason" av Pierre Lecomte du Noüy
    I detta filosofiska verk diskuterar Lecomte du Noüy vikten av förnuft och vetenskapligt tänkande för att förstå universum. Han fördjupar sig också i hur vetenskaplig framsteg bör integreras med moralisk och andlig utveckling.

    22. Digital signal processing

  22. "Förståelse för digital signalbehandling" av Richard G. Lyons
    Denna bok ger en klar och tillgänglig introduktion till digital signalbehandling (DSP), vilket gör komplexa koncept förståeliga även för nybörjare. Den täcker ämnen som filtrering, Fourieranalys och samplingsteori på ett praktiskt och lättförståeligt sätt, vilket är idealiskt för dem som är intresserade av grunderna i signalbehandling för ljudanalys.

  23. "Forskare och ingenjörers guide till digital signalbehandling" av Steven W. Smith
    En populär, lättläst bok som introducerar DSP-koncept med praktiska exempel och tillämpningar. Det är en gratis online-resurs som förklarar hur signalbehandling fungerar med steg-för-steg-guider och exempel från verkligheten, vilket gör den mycket tillgänglig för nybörjare, särskilt de som är intresserade av ljud- och musiksignalanalys.

  24. "Digital ljudsignalbehandling" av Udo Zölzer
    Denna bok introducerar principerna och tillämpningarna av digital ljudsignalbehandling, med fokus på områden som digitala filter, ljudeffekter och tids-frekvensanalys. Även om materialet är tekniskt, presenteras det på ett sätt som är lättillgängligt för läsare med grundläggande kunskaper om DSP.

  25. "En introduktion till ljudinnehållsanalys: Tillämpningar inom signalbehandling och musikinformatik" av Alexander Lerch
    Denna text är särskilt användbar för dem som är intresserade av ljud- och musiksignalbehandling. Den introducerar tekniker för att analysera ljudinnehåll som musikstruktur, rytm och harmoni med hjälp av algoritmer för signalbehandling. Boken är praktisk och tillgänglig för studenter och yrkesverksamma.

  26. "Design av ljudeffektpluggar i C: Med teori om digital ljudsignalbehandling" av Will Pirkle
    För dem som vill dyka ner i tillämpningssidan av ljudsignalbehandling är denna bok en användarvänlig introduktion till kodning och design av ljudeffekter med hjälp av C-programmering. Den är idealisk för nybörjare som vill förstå hur DSP kan tillämpas för att skapa realtidsljud effekter.

    Jung och det omedvetna

  27. "Minnen, drömmar, reflektioner" av Carl G. Jung
    En semi-autobiografisk bok som täcker Jungs liv och nyckelidéer, inklusive hans utveckling av koncept som det kollektiva omedvetna, arketypiska bilder och skuggan. Den ger personliga insikter i hans psykologiska teorier.

  28. "Arketypen och det kollektiva omedvetna" av Carl G. Jung
    Denna bok är en central text inom jungiansk psykologi, där han skisserar sina teorier om det omedvetna sinnet, särskilt det kollektiva omedvetna och dess arketypiska bilder. Det är grundläggande läsning för att förstå Jungs idéer om personlighet och psyke.

  29. "Psykologiska typer" av Carl G. Jung
    I detta verk introducerar Jung sin teori om psykologiska typer, som senare påverkade utvecklingen av Myers-Briggs Type Indicator (MBTI). Han diskuterar dikotomin mellan introversion och extroversion samt andra psykologiska funktioner som formar personlighet.

  30. "Mannen och hans symboler" av Carl G. Jung
    Skriven som en tillgänglig introduktion till jungiansk tanke, fördjupar sig denna bok i användningen av symboler i drömmar och konst som representationer av omedvetna processer. Den är utformad för en bredare publik och erbjuder insikter i den mänskliga psyken.

  31. "Det oupptäckta jaget" av Carl G. Jung
    Jung utforskar konflikten mellan individens behov av personlig utveckling och trycket från det moderna samhället. Den betonar vikten av självmedvetenhet i att navigera det omedvetna och skuggaspekterna av personlighet.

  32. "Äga din egen skugga: Förstå den mörka sidan av psyket" av Robert A. Johnson
    En praktisk guide för att förstå Jungs koncept om skuggan, denna bok förklarar hur man känner igen och integrerar det skugglika jaget för psykologisk balans och personlig tillväxt.

  33. "Jungs karta över själen: En introduktion" av Murray Stein
    Denna bok erbjuder en introduktion till Jungs teorier om personlighet, inklusive hans idéer om skuggan, det omedvetna och individuation. Det är en bra resurs för dem som är nya inom jungiansk psykologi.

  34. "Gåvor som skiljer sig: Förståelse av personlighetstyp" av Isabel Briggs Myers med Peter B. Myers
    Denna bok förklarar MBTI-systemet för personlighetstyper, som baseras på Jungs psykologiska typer. Den ger insikter i hur olika personlighetstyper interagerar och hur de påverkar personlig och professionell liv.

    Läkning med ljud

  35. "Läkande kraft av ljud: Återhämtning från livshotande sjukdomar med ljud, röst och musik" av Mitchell L. Gaynor
    Denna bok fördjupar sig i användningen av ljudterapi för läkning, med fokus på hur vibrationer och frekvenser kan användas för att stödja återhämtning från sjukdom. Gaynor, en onkolog, kombinerar medicinska insikter med ljudhelande metoder.

  36. "Stämning av den mänskliga biofältet: Läkning med vibrational ljudterapi" av Eileen Day McKusick
    McKusick utforskar biofältets anatomi och diskuterar hur ljud, frekvens och vibration påverkar det mänskliga energifältet. Boken innehåller information om hur stämgafflar och andra ljudverktyg kan främja läkning.

  37. "Läkande ljud: Kraften av harmonik" av Jonathan Goldman
    Denna bok förklarar konceptet att använda ljud och harmonik för att läka kroppen och sinnet. Den innehåller praktiska tekniker för ljudhealing, såsom vokal toning och arbete med övertoner.

  38. "Ljudmedicin: Hur man använder den antika vetenskapen om ljud för att läka kroppen och sinnet" av Kulreet Chaudhary
    Denna bok kombinerar antik ayurvedisk medicin med moderna ljudterapimetoder. Chaudhary förklarar hur ljudfrekvenser och vibrationer kan användas för läkning och välbefinnande, från mantran till moderna ljudteknologier.

    Medvetande, Energi och Verklighet

  39. "Vattnets Fjärde Fas: Bortom Fast, Vätska och Ånga" av Gerald Pollack
    Pollack presenterar banbrytande forskning om vattnets egenskaper och dess konsekvenser för biologi och energimedicin.

  40. "LSD och Universums Medvetande" av Christopher Bache
    Bache utforskar skärningspunkten mellan psykedelia, medvetande och verklighetens natur genom personliga erfarenheter och vetenskapliga insikter.

  41. "Medvetande Bortom Livet: Vetenskapen om Nära-Döden Upplevelsen" av Pim van Lommel
    Van Lommel ger en omfattande granskning av nära-döden-upplevelser, deras konsekvenser för medvetande och kontinuiteten av jaget bortom den fysiska existensen.

  42. "Mannen som inte trodde på Mirakler" av Didier Van Cauwelaert
    Denna roman väver samman teman av medvetande och kvantfysik, och utforskar verklighetens natur och tro genom en fängslande berättelse.

  43. "Frisk med Avsikt: Impulser för Självläkning" av Folker Meissner
    Meissner undersöker de vetenskapliga principerna bakom energimedicin och erbjuder insikter i dess terapeutiska potential och mekanismer.

  44. "Kopplad: Framväxten av Globalt Medvetande" av Roger Nelson
    Nelson undersöker sammanlänkningen av mänskligt medvetande och dess konsekvenser för förståelsen av kollektiva upplevelser och globalt medvetande.

  45. "Morphogeniskt vatten - Hälsa - Information och medvetandefält" av Marc Henry
    Henry diskuterar vattnets betydelse i biologiska system och dess roll som ett medium för energiöverföring och medvetande.

  46. "Liv Efter Liv" av Raymond Moody
    Moodys banbrytande arbete introducerar konceptet av nära-döden-upplevelser och presenterar ett antal fallstudier som belyser gemensamma inslag som rapporterats av dem som har haft sådana upplevelser.

  47. "Omfamnad av Ljus" av Betty J. Eadie
    Denna memoar återberättar Eadies nära-döden-upplevelse, och delar med sig av hennes insikter och de djupa andliga uppenbarelser hon mötte under sin resa.

  48. "Bevis på Himlen: En Neurokirurgs Resa in i Livet Efter Döden" av Eben Alexander
    Alexander, en neurokirurg, delar med sig av sin egen nära-döden-upplevelse och erbjuder en övertygande redogörelse som utmanar konventionella vetenskapliga synsätt om medvetande och livet efter döden.

  49. "Döende för att Vara Jag: Min Resa från Cancer, till Nära Döden, till Sann Läkning" av Anita Moorjani
    Moorjani delar med sig av sin transformativa nära-döden-upplevelse under sin kamp mot cancer och de kraftfulla lärdomar om självmottagande och läkande hon lärde sig.

  50. "Resor ut ur Kroppen" av Robert A. Monroe
    Denna klassiska bok dokumenterar Monroes personliga erfarenheter med utanför-kroppen-resor och utforskar möjligheterna för mänskligt medvetande bortom den fysiska kroppen. Den anses allmänt vara en av de grundläggande texterna inom medvetandestudier.

  51. "Långt bortom Resor" av Robert A. Monroe
    Denna uppföljare till "Resor ut ur Kroppen" dyker djupare in i Monroes resor bortom den fysiska planen, där han utforskar olika dimensioner av existens och utvecklar sin förståelse av medvetande.

  52. "Ultimat Resa" av Robert A. Monroe
    I denna sista bok i trilogin delar Monroe insikter från sina erfarenheter i förändrade medvetandetillstånd, med fokus på teman som livet efter döden, verklighetens natur och mänskligt syfte.

  53. "Kosmisk Medvetande" av Richard M. Bucke
    Bucke beskriver sin egen erfarenhet av kosmisk medvetande och utforskar dess konsekvenser för andlig evolution.

  54. "En Yaqui Vägen till Kunskap" av Carlos Castaneda
    Denna bok dyker ner i shamaniska praktiker och verklighetens natur genom Castanedas lärlingskap med en Yaqui-shaman.

    55. Bioetik och Medicin

  55. "Bioetik: Principer, Frågor och Fall" av Lewis Vaughn
    Vaughn presenterar centrala etiska principer och frågor inom medicinsk praxis, och erbjuder fallstudier för tillämpningar i verkliga livet.

    56. Medvetandestudier

  56. "Medvetande och Universum: Kvantfysik, Utveckling, Hjärna & Sinne" av Sir Roger Penrose och Stuart Hameroff
    Denna samling av essäer utforskar de kvantmässiga ursprungen till medvetande, och kombinerar insikter från fysik, neurovetenskap och filosofi för att undersöka hur kvantprocesser i hjärnan kan förklara medveten upplevelse.

  57. "Medvetande Förklarat" av Daniel Dennett
    Dennett presenterar en omfattande teori om medvetande, argumenterar emot traditionella synsätt och erbjuder insikter om hur sinnet fungerar.

  58. "Vaken: En Guide till Spiritualitet Utan Religion" av Sam Harris
    Harris diskuterar medvetande, meditation och naturen av spiritualitet, och förespråkar en sekulär ansats för att förstå sinnet.

    59. Kvantfysik och Metafysik

  59. "Kvantet och Lotusen: En Resa till Gränserna Där Vetenskap och Buddhism Mötas" av Matthieu Ricard och Trinh Xuan Thuan
    Denna bok utforskar paralleller mellan kvantfysik och buddhistisk filosofi, och diskuterar insikter från båda fälten.

  60. "Det Holografiska Universum" av Michael Talbot
    Talbot presenterar idén att universum fungerar som ett hologram, och sammanfogar insikter från kvantfysik med metafysiska implikationer.

    61. Psykologi och Psykoterapi

  61. "Mans Sökan efter Meningen" av Viktor E. Frankl
    Frankl utforskar den psykologiska resan att hitta syfte även i de mest svåra omständigheterna, och integrerar existentiell filosofi och psykologi.

  62. "Kroppen Kommer Ihåg: Hjärnan, Sinnet och Kroppen i Läkningsprocessen av Trauma" av Bessel van der Kolk
    Denna bok diskuterar traumaets påverkan på kroppen och sinnet, och belyser innovativa tillvägagångssätt för läkning.

  63. "Kärnenergetik" av John C. Pierrakos
    Denna bok beskriver Pierrakos' tillvägagångssätt till Kärnenergetik, en kropp-centered terapeutisk metod. Han fördjupar sig i hur avblockering av energi i kroppen kan leda till emotionell och psykologisk läkning, och integrerar spiritualitet med psykoterapi.

  64. "Självtransformeringens Vägarbete" av Eva Pierrakos
    Författad av John Pierrakos' fru, Eva Pierrakos, är denna bok avgörande för att förstå de andliga och energetiska grunderna för Kärnenergetik. Den presenterar en samling läror från Pathwork-guiden, som starkt påverkade Pierrakos' eget terapeutiska arbete.

  65. "Min Röst Kommer Att Gå Med Dig: Lärande Berättelser av Milton H. Erickson" av Milton H. Erickson, redigerad av Sidney Rosen
    Denna bok är en samling av Ericksons terapeutiska berättelser och lärande berättelser. Den framhäver hans indirekta tekniker och användning av metaforer för att underlätta djup psykologisk förändring, och erbjuder insikter i hur Erickson subtilt vägledde sina patienter mot läkning.

  66. "Ovanlig Terapi: De Psykiatriska Teknikerna av Milton H. Erickson, M.D." av Jay Haley
    Haley erbjuder en detaljerad inblick i Ericksons innovativa tekniker inom kort terapi. Denna bok framhäver Ericksons icke-traditionella och ofta överraskande metoder, inklusive hans förmåga att vägleda patienter mot snabba terapeutiska genombrott på bara några sessioner.

    67. Systemteori och Systemtänkande

  67. "Allmän Systemteori: Grunder, Utveckling, Tillämpningar" av Ludwig von Bertalanffy
    En klassiker inom systemtänkande, Bertalanffys arbete introducerar grunderna i Allmän Systemteori, som blev en grundläggande pelare för tvärvetenskaplig forskning inom vetenskaperna. Hans idéer har haft stort inflytande inom allt från biologi till samhällsvetenskaper.

  68. "Steg mot en Ekologi av Sinnet" av Gregory Bateson
    En nyckelfigur i Palo Alto-gruppen, Batesons samling av essäer täcker ämnen som kommunikation, psykologi och ekologi. Hans arbete lade grunden för systemtänkande inom mänsklig kommunikation och interaktioner.

  69. "Sinnet och Naturen: En Nödvändig Enhet" av Gregory Bateson
    Ännu en viktig text från Bateson, som utforskar hur sinnet och miljön är sammanlänkade. Hans idéer är grundläggande för att förstå systemteori i termer av mänsklig interaktion, lärande och ekologi.

  70. "Den Sociala Konstruktionen av Verkligheten: En Avhandling i Kunskapens Sociologi" av Peter L. Berger och Thomas Luckmann
    Denna bok kopplar till systemtänkande genom sin utforskning av hur sociala system och verkligheter konstrueras och upprätthålls.

  71. "Livets Systemsyn: En Enande Vision" av Fritjof Capra och Pier Luigi Luisi
    Capra, en nyckelfigur inom systemtänkande, presenterar en samtida och integrerad förståelse av levande system. Denna bok kopplar systemteori till biologi, ekologi och medvetande.

  72. "Förändring: Principer för Problembildning och Problemlösning" av Paul Watzlawick, John Weakland och Richard Fisch
    Ännu ett viktigt verk från Palo Alto-gruppen, det utforskar hur förändring sker i mänskliga system, särskilt familjer och organisationer, genom en systemisk lins.

  73. "Kunskapens Träd: De Biologiska Rötterna till Mänsklig Förståelse" av Humberto R. Maturana och Francisco J. Varela
    Denna bok förenar biologi, kognition och systemtänkande, med fokus på autopoiesis (självskapande system), ett centralt begrepp för att förstå levande system.

  74. "Kybernetik, eller Kontroll och Kommunikation i Djur och Maskin" av Norbert Wiener
    Denna grundläggande text inom kybernetik utforskar hur kommunikations- och kontrollprocesser fungerar i både maskiner och levande varelser.

  75. "Den Femte Disciplinen: Konsten & Praktiken av Den Lärande Organisationen" av Peter M. Senge
    Senges arbete tillämpar systemtänkande på organisatorisk utveckling. Det anses allmänt som en nyckeltext inom både affärer och utbildning, med fokus på hur komplexa organisationer kan struktureras för lärande och anpassningsförmåga.
                   Read more
                  10/02/22

                  Medicinska studier och litteratur

                  Bilaga 2.
                  Lista över relaterade studier

                  Du kan få tillgång till alla länkar på biocoherence.net/studieslist

                    Akupunktur, meridianer

                  1. H. M. Langevin and J. A. Yandow, Anat. Rec. (New Anat.) 269, 257 (2002). DOI , Google Scholar Crossref

                  2. Banes AJ, Tsuzaki M, Yamamoto J, et al. 1995. Mechanoreception at the cellular level: The detection, interpretation and diversity of responses to mechanical signals. Biochem Cell Biol 73:349– 365. Crossref PubMed Web of Science® Google Scholar

                  3. Bonassar LJ, Stinn JL, Paguio CG, et al. 1996. Activation and inhibition of endogenous matrix metalloproteinases in articular cartilage: Effects on composition and biophysical properties. Arch Biochem Biophys 333: 359– 367. Crossref PubMed Web of Science® Google Scholar

                  4. Murugan NJ, Cariba S, Abeygunawardena S, Rouleau N, Payne SL. Biophysical control of plasticity and patterning in regeneration and cancer. Cell Mol Life Sci. 2023 Dec 15;81(1):9. doi: 10.1007/s00018-023-05054-6. PMID: 38099951; PMCID: PMC10724343. DOI

                  5. Brand RA. 1997. What do tissues and cells know of mechanics? Ann Med 29: 267– 269. Crossref PubMed Web of Science® Google Scholar

                  6. Bossy J. 1984. Morphological data concerning the acupuncture points and channel network. Acupunct Electrother Res 9: 79– 106. PubMed Web of Science® Google Scholar

                  7. Cheng X. 1987. Chinese acupuncture and moxibustion. Beijing: Foreign Language Press. Google Scholar

                  8. Chicurel ME, Chen CS, Ingber DE. 1998. Cellular control lies in the balance of forces. Curr Opin Cell Biol 10: 232– 239. Crossref PubMed Web of Science® Google Scholar

                  9. Chiquet M. 1999. Regulation of extracellular matrix gene expression by mechanical stress. Matrix Biol 18: 417– 426. PubMed Web of Science® Google Scholar

                  10. Ciczek LSW, Szopinski J, Skrzypulec V. 1985. Investigations of morphological structures of acupuncture points and meridians. J Trad Chin Med 5: 289– 292. Google Scholar

                  11. Comunetti A, Laage S, Schiessl N, Kistler A. 1995. Characterization of human skin conductance at acupuncture points. Experientia 51: 328– 331. Crossref PubMed Web of Science® Google Scholar

                  12. Dung HC. 1984. Anatomical features contributing to the formation of acupuncture points. Am J Acupunct 12: 139– 143. Web of Science® Google Scholar

                  13. Giancotti FG, Ruoslahti E. 1999. Integrin signaling. Science 285: 1028– 1032. Crossref PubMed Web of Science® Google Scholar

                  14. Gunn CC, Ditchburn FG, King MH, Renwick GJ. 1976. Acupuncture loci: A proposal for their classification according to their relationship to known neural structures. Am J Chin Med 4: 183– 195. Crossref PubMed Google Scholar

                  15. Ho MW, Knight DP. 1998. The acupuncture system and the liquid crystalline collagen fibers of the connective tissues. Am J Chin Med 26: 251– 263. Crossref PubMed Web of Science® Google Scholar

                  16. Huan ZY, Rose K. 2001. A brief history of Qi. Brookline, MA: Paradigm Publications. Google Scholar

                  17. Kaptchuk TJ. 2000. The web that has no weaver. Understanding Chinese medicine. Chicago: Contemporary Publishing Group, Inc. Google Scholar

                  18. Lai WM, Mow VC, Sun DD, Atesian GA. 2000. On the electric potentials inside a charged soft hydrated biological tissue: Streaming potential versus diffusion potential. J Biomech Eng 122: 336– 346. Crossref PubMed Web of Science® Google Scholar

                  19. Langevin HM, Churchill DL, Cipolla MJ. 2001a. Mechanical signaling through connective tissue: A mechanism for the therapeutic effect of acupuncture. FASEB J 15: 2275– 2282. Wiley Online Library PubMed Web of Science® Google Scholar

                  20. Langevin HM, Churchill DL, Fox JR, Badger GJ, Garra BS, Krag MH. 2001b. Biomechanical response to acupuncture needling in humans. J Appl Physiol 91: 2471– 2478. Crossref PubMed Web of Science® Google Scholar

                  21. Langevin HM, Churchill DL, Wu J, Badger GJ, Yandow JA, Fox JR, Krag MH. 2002. Evidence of connective tissue involvement in acupuncture. FASEB J 16: 872– 874. Wiley Online Library PubMed Web of Science® Google Scholar

                  22. Liu KY, Varela M, Oswald R. 1975. The correspondence between some motor points and acupuncture loci. Am J Chin Med 3: 347– 358. Crossref PubMed Google Scholar

                  23. Matsumoto K, Birch S. 1988. Hara diagnosis: Reflections of the sea. Brookline: Paradigm Publications. Google Scholar

                  24. McCarroll GD, Rowley BA. 1979. An investigation of the existence of electrically located acupuncture points. IEEE Trans Biomed Eng 26: 177– 182. Crossref PubMed Web of Science® Google Scholar

                  25. Noordegraaf A, Silage D. 1973. Electroacupuncture. IEEE Trans Biomed Eng 20: 364– 366. Crossref PubMed Web of Science® Google Scholar

                  26. NIH Consensus Statement. 1997. Acupuncture. Bethesda, MD: NIH. 15: 1– 34. Google Scholar

                  27. O'Connor J, Bensky D. 1981. Acupuncture, a comprehensive text (Shanghai College of Traditional Medicine) Seattle: Eastland Press. Google Scholar

                  28. Oschman JL. 1993. A biophysical basis for acupuncture. Proceedings of the First Symposium of the Committee for Acupuncture Research. Google Scholar

                  29. Pomeranz B. 2001. Acupuncture analgesia-basic research. In: G Stux, R Hammerschlag, editors.Clinical acupuncture-scientific basis. Berlin: Springer-Verlag. Google Scholar

                  30. Rabischong P, Niboyet JEH, Terral C, Senelar R, Casez R. 1975. Bases experimentales de l'analgésie acupuncturale. Nouv Presse Med 4: 2021– 2026. PubMed Web of Science® Google Scholar

                  31. Reishmanis M, Marino AA, Becker RO. 1975. Electrical correlates of acupuncture points. IEEE Trans Biomed Eng 22: 533– 535. Crossref PubMed Web of Science® Google Scholar

                  32. Senelar R. 1979. Les caractéristiques morphologiques des points chinois. In: JEH Niboyet, editor.Nouveau traité d'acupuncture. Paris: Maisonneuve. Google Scholar

                  33. Shanghai Medical University, Human Anatomy Department. 1973. A relationship between points of meridians and peripheral nerves: Acupuncture anaesthetic theory study. Shanghai: People's Republic Publishing House. Google Scholar

                  34. Swartz MA, Tschumperlin DJ, Kamm RD, Drazen JM. 2001. Mechanical stress is communicated between different cell types to elicit matrix remodeling. Proc Natl Acad Sci USA 98: 6180– 6185. Crossref PubMed Web of Science® Google Scholar

                  35. Ulett GA, Han S, Han JS. 1998. Electroacupuncture: mechanisms and clinical applications. Biol Psych44: 129– 138. PubMed Web of Science® Google Scholar

                  36. Veith I. 1949. The yellow emperor's classic of internal medicine. Berkeley: University of California Press. Google Scholar

                  37. Yang J. 1601. The golden needle and other odes of traditional acupuncture, 1601. Translated by R Bertschinger. Edinburgh: Churchill Livingstone. Google Scholar

                  38. Quyen Manh Nguyen, Tuan Hoang Nguyen, Lam Van Tran, Tin Thanh Dang, Anh Dinh, Device to Detect Acupuncture Points in the Feet Soles for Massage Treatment, 8th International Conference on the Development of Biomedical Engineering in Vietnam, 10.1007/978-3-030-75506-5_1, (3-13), (2022). Crossref

                  39. Yung-Sheng Yen, Han-Yi Cheng, Hung-Ta Lin, Evaluation of Stress on Acupuncture with Nano-Etched and Diamond-Like Carbon (DLC) Coating Surface Modifications, Journal of Biomaterials and Tissue Engineering, 10.1166/jbt.2022.2928, 12, 3, (489-493), (2022). Crossref

                  40. Gregory P. Casey, Anatomical characterization of acupoint large intestine 4, The Anatomical Record, 10.1002/ar.24681, 305, 1, (144-155), (2021). Wiley Online Library

                  41. Ajit B. Pai, Lori V. Shuart,, David F. Drake, Integrative Medicine in Rehabilitation, Braddom's Physical Medicine and Rehabilitation, 10.1016/B978-0-323-62539-5.00018-7, (364-373.e3), (2021). Crossref

                  42. Tongju Li, Bruce Qing Tang, Wei-Bo Zhang, Minyi Zhao, Qingchuan Hu, Andrew Ahn, In Vivo Visualization of the Pericardium Meridian with Fluorescent Dyes, Evidence-Based Complementary and Alternative Medicine, 10.1155/2021/5581227, 2021, (1-10), (2021). Crossref

                  43. Chao Sun, Changchun Ji, Ying Li, Jiujie Kuang, Jiangtao Wu, A comparison study of photothermal effect between moxibustion therapy and laser irradiation on biological tissue, International Journal of Thermal Sciences, 10.1016/j.ijthermalsci.2021.106924, 164, (106924), (2021). Crossref

                  44. Nikolay Dimitrov, Nikola Tomov, Dimitrinka Atanasova, Stiliyan Iliev, Tatyana Tomova, Dimitar Sivrev, Zoya Goranova, Visible Meridian Phenomena after Acupuncture: A Series of Case Reports, Journal of Acupuncture and Meridian Studies, 10.51507/j.jams.2021.14.2.50, 14, 2, (50-57), (2021). Crossref

                  45. Nasim Bahadorani, Jerry W. Lee, Leslie R. Martin, Implications of Tamarkoz on stress, emotion, spirituality and heart rate, Scientific Reports, 10.1038/s41598-021-93470-8, 11, 1, (2021). Crossref

                  46. Maojun Li, Huawen Peng, Binxiu Wei, Qiuxia Deng, Fen Qian, Xin Liu, Jian Wang, Xiaodong Zhu, Effect of acupuncture anesthesia based on nanomaterial sensor on cognitive function after one-lung ventilation thoracotomy, Materials Express, 10.1166/mex.2021.2027, 11, 7, (1051-1056), (2021). Crossref

                  47. Jaliya Kumaratilake, Teghan Lucas, Maciej Henneberg, Possible relationship of upper limb arteries, median and brachial to the twelfth meridian of the human upper limb, Journal of Anatomy, 10.1111/joa.13401, 238, 6, (1492-1493), (2021). Wiley Online Library

                  48. Yong Ming Li, Three hand yin meridians in ancient Chinese medicine were established initially based on arterial structures, Journal of Anatomy, 10.1111/joa.13400, 238, 6, (1494-1496), (2021). Wiley Online Library

                  49. Yi Zhang, Interpretation of acupoint location in traditional Chinese medicine teaching: Implications for acupuncture in research and clinical practice, The Anatomical Record, 10.1002/ar.24618, 304, 11, (2372-2380), (2021). Wiley Online Library

                  50. Sanghun Lee, Prospects for the Development of Acupuncture Treatment Led by the Use of Ultrasound Imaging Devices, Journal of Korean Medical Society of Soft Tissue, 10.54461/JKMST.2021.5.1.8, 5, 1, (8-11), (2021). Crossref

                  51. Xiao Ye, Yu-lan Ren, Yun-hui Chen, Ji Chen, Xiao-jiao Tang, Zong-ming Zhang, A "4D" systemic view on meridian essence: Substantial, functional, chronological and cultural attributes, Journal of Integrative Medicine, 10.1016/j.joim.2021.11.006, (2021). Crossref

                  52. Berna Dincer, Demet İnangil, Gökhan İnangil, Nefise Bahçecik, Elif Yıldırım Ayaz, Ali Arslanoğlu, Miraç Vural Keskinler, Ayşe Kabuk, Gamze Özkan, The effect of acupressure on sleep quality of older people: A systematic review and meta-analysis of randomized controlled trials, EXPLORE, 10.1016/j.explore.2021.11.010, (2021). Crossref

                  53. Marianna de Melo Salemi, Vanessa Maria da Silva Alves Gomes, Laylla Marjorye Rebouças Bezerra, Thania Maion de Souza Melo, Geisa Guimarães de Alencar, Iracema Hermes Pires de Mélo Montenegro, Alessandra Paula de Melo Calado, Eduardo José Nepomuceno Montenegro, Gisela Rocha de Siqueira, Effect of Dry Cupping Therapy on Pain and Functional Disability in Persistent Non-Specific Low Back Pain: A Randomized Controlled Clinical Trial, Journal of Acupuncture and Meridian Studies, 10.51507/j.jams.2021.14.6.219, 14, 6, (219-230), (2021). Crossref

                  54. Luís Carlos Matos, Jorge Pereira Machado, Fernando Jorge Monteiro, Henry Johannes Greten, Understanding Traditional Chinese Medicine Therapeutics: An Overview of the Basics and Clinical Applications, Healthcare, 10.3390/healthcare9030257, 9, 3, (257), (2021). Crossref

                  55. Jingwen Cui, Wanrong Song, Yipeng Jin, Huihao Xu, Kai Fan, Degui Lin, Zhihui Hao, Jiahao Lin, Research Progress on the Mechanism of the Acupuncture Regulating Neuro-Endocrine-Immune Network System, Veterinary Sciences, 10.3390/vetsci8080149, 8, 8, (149), (2021). Crossref

                  56. Íñigo Ongay de Felipe, The Universality of Science and Traditional Chinese Medicine, Science & Education, 10.1007/s11191-021-00249-4, (2021). Crossref

                  57. Ningcen Li, Yi Guo, Yinan Gong, Yue Zhang, Wen Fan, Kaifang Yao, Zhihan Chen, Baomin Dou, Xiaowei Lin, Bo Chen, Zelin Chen, Zhifang Xu, Zhongxi Lyu, The Anti-Inflammatory Actions and Mechanisms of Acupuncture from Acupoint to Target Organs via Neuro-Immune Regulation, Journal of Inflammation Research, 10.2147/JIR.S341581, Volume 14, (7191-7224), (2021). Crossref

                  58. 戬云 冯, Bridging Medicine East and West—Pursuit on the Relation between Biomedical Consequence of Stimulating the Acupoints of the Lung Meridian and Somatosensory Reflexes, Aiming to Treat Chronic Obstruction Pulmonary Diseases, Traditional Chinese Medicine, 10.12677/TCM.2020.92022, 09, 02, (145-176), (2020). Crossref

                  59. Manon te Dorsthorst, Michael van Balken, John Heesakkers, Tibial nerve stimulation in the treatment of overactive bladder syndrome, Current Opinion in Urology, 10.1097/MOU.0000000000000781, 30, 4, (513-518), (2020). Crossref

                  60. Peter I-Kung Wu, Lucy Chen, Integrative Medicine, Spine Pain Care, 10.1007/978-3-030-27447-4, (473-489), (2020). Crossref

                  61. I. Giralt Sampedro, G. Carvajal, A. García-Janeras, A. Fabà, M.B. Nishishinya Aquino, A severe case of Ramsay Hunt Syndrome treated with acupuncture and related techniques, Complementary Therapies in Clinical Practice, 10.1016/j.ctcp.2020.101119, (101119), (2020). Crossref

                  62. Eric Leskowitz, A Cartography of Energy Medicine: From Subtle Anatomy to Energy Physiology, EXPLORE, 10.1016/j.explore.2020.09.008, (2020). Crossref

                  63. Hantong Hu, Yongliang Jiang, Xiaoyu Li, Jiali Lou, Yajun Zhang, Xiaofen He, Junfan Fang, Yuanyuan Wu, Xiaomei Shao, Jianqiao Fang, The microcirculatory characteristics of the heart and lung meridians, Medicine, 10.1097/MD.0000000000019594, 99, 14, (e19594), (2020). Crossref

                  64. Sheikh Faruque Elahee Bangladesh, Hui-juan Mao, Ling Zhao, Xue-yong Shen, Meridian system and mechanism of acupuncture action: A scientific evaluation 经络系统与针刺效应机制的科学评价, World Journal of Acupuncture - Moxibustion, 10.1016/j.wjam.2020.05.003, (2020). Crossref

                  65. Mário Gonçalves, Luís Carlos Matos, Leonel Duarte, Jorge Machado, Henry Johannes Greten, Giovanna Franconi, PROBLEMS OF SCIENTIFIC METHODOLOGY RELATED TO PLACEBO CONTROL IN QIGONG STUDIES: A SYSTEMATIC REVIEW, Journal of Bodywork and Movement Therapies, 10.1016/j.jbmt.2020.06.035, (2020). Crossref

                  66. Hans-Udo Richarz, Uwe Schütz, Werner Klingler, Das fasziale Bindegewebe – ein Medium für die Akupunktur? The fascial connective tissue—a medium for acupuncture?, Deutsche Zeitschrift für Akupunktur, 10.1007/s42212-019-00228-5, (2020). Crossref

                  67. Shi Yonghong, Wu Ruizhi, Zhang Yue, Bai Xuebing, Imran Tarique, Liang Chunhua, Yang Ping, Chen Qiusheng, Telocytes in Different Organs of Vertebrates: Potential Essence Cells of the Meridian in Chinese Traditional Medicine, Microscopy and Microanalysis, 10.1017/S1431927620001518, (1-14), (2020). Crossref

                  68. Jinglan Mu, Andrea D Furlan, Wai Yee Lam, Marcos Y Hsu, Zhipeng Ning, Lixing Lao, Acupuncture for chronic nonspecific low back pain, Cochrane Database of Systematic Reviews, 10.1002/14651858.CD013814, (2020). Crossref

                  69. Kimia Grace Ganjaei, Jeremiah W. Ray, Brandee Waite, Kevin J. Burnham, The Fascial System in Musculoskeletal Function and Myofascial Pain, Current Physical Medicine and Rehabilitation Reports, 10.1007/s40141-020-00302-3, (2020). Crossref

                  70. Christina L Ross, Energy Medicine: Current Status and Future Perspectives, Global Advances in Health and Medicine, 10.1177/2164956119831221, 8, (216495611983122), (2019). Crossref

                  71. Phil Trabulsy, COMPLEMENTARY AND ALTERNATIVE MEDICINE, Cancer, 10.1002/9781119645214, (499-530), (2019). Wiley Online Library

                  72. Younbyoung Chae, Yeonhee Ryu, Won-Mo Jung, An Analysis of Indications of Meridians in DongUiBoGam Using Data Mining, Korean Journal of Acupuncture, 10.14406/acu.2019.034, 36, 4, (292-299), (2019). Crossref

                  73. Wei-bo ZHANG, Xiao-jing SONG, Ze WANG, Guang-jun WANG, Shu-yong JIA, Yu-ying TIAN, Hong-yan LI, Longitudinal Directional Movement of Alcian Blue in Gephyrocharax Melanocheir Fish: Revealing Interstitial Flow and Related Structure ☆ 阿尔新蓝在黑裙鱼中的纵向定向运动:组织液流动与相关结构的揭示, World Journal of Acupuncture - Moxibustion, 10.1016/j.wjam.2019.05.008, (2019). Crossref

                  74. Nicholas Alexander Wise, Action at a distance: laser acupuncture and the brain, Photobiomodulation in the Brain, 10.1016/B978-0-12-815305-5.00036-1, (489-501), (2019). Crossref

                  75. Liangjun Xia, Qingyu Meng, Jin Xi, Qin Han, Jie Cheng, Jie Shen, Youbing Xia, Liyun Shi, The synergistic effect of electroacupuncture and bone mesenchymal stem cell transplantation on repairing thin endometrial injury in rats, Stem Cell Research & Therapy, 10.1186/s13287-019-1326-6, 10, 1, (2019). Crossref

                  76. Dha-Hyun Choi, Younbyoung Chae, Minimisation of variations in locating an acupuncture point using a laser-device, Integrative Medicine Research, 10.1016/j.imr.2019.11.005, (2019). Crossref

                  77. Doohan Oh, Jong-hyun Kim, Youn-Sub Kim, Song-Yi Kim, Analysis of Tonification and Sedation Methods in the 『Yeongsochimgugyeong』, Korean Journal of Acupuncture, 10.14406/acu.2019.021, 36, 3, (171-180), (2019). Crossref

                  78. Aleksandar Zivaljevic, Bin Shi, ElisaM S. Tam, Vahideh Toossi, Treatment of visceral pain associated with irritable bowel syndrome using acupuncture: Mechanism of action, World Journal of Traditional Chinese Medicine, 10.4103/wjtcm.wjtcm_24_19, 5, 4, (181), (2019). Crossref

                  79. Suchan Chang, O. Sang Kwon, Se Kyun Bang, Do-Hee Kim, Min Won Baek, Yeonhee Ryu, Jong Han Bae, Yu Fan, Soo Min Lee, Hyung Kyu Kim, Bong Hyo Lee, Chae Ha Yang, Hee Young Kim, Peripheral Sensory Nerve Tissue but Not Connective Tissue Is Involved in the Action of Acupuncture, Frontiers in Neuroscience, 10.3389/fnins.2019.00110, 13, (2019). Crossref

                  80. Junaid Wazir, Rahat Ullah, Shihong Li, Md Amir Hossain, Maladho Tanta Diallo, Farhan Ullah Khan, Awais Ullah Ihsan, Xiaohui Zhou, Efficacy of acupuncture in the treatment of chronic prostatitis-chronic pelvic pain syndrome: a review of the literature, International Urology and Nephrology, 10.1007/s11255-019-02267-2, (2019). Crossref

                  81. Noa Schwartz, Madhavi Latha S. Chalasani, Thomas M. Li, Zhonghui Feng, William D. Shipman, Theresa T. Lu, Lymphatic Function in Autoimmune Diseases, Frontiers in Immunology, 10.3389/fimmu.2019.00519, 10, (2019). Crossref

                  82. Sarah Ely, Panos Barlas, Transcutaneous electrical acupoint stimulation for people with chronic musculoskeletal pain: an exploratory review, Physical Therapy Reviews, 10.1080/10833196.2019.1648728, (1-12), (2019). Crossref

                  83. Koh-Woon Kim, Sanhwa Hong, Hong Soo Kim, Taehun Kim, Jaeha Ahn, Hyun-Seo Song, Yu-Kang Kim, Ju-Young Oh, Tae-Yeon Hwang, Hyangsook Lee, Su-Il In, Hi-Joon Park, Physiological impact of nanoporous acupuncture needles: Laser Doppler perfusion imaging in healthy volunteers, PLOS ONE, 10.1371/journal.pone.0226304, 14, 12, (e0226304), (2019). Crossref

                  84. Chang-zhen Gong, Wei Liu, Convergence of Medicines: West Meets East in Newly-Discovered Organs and Functions, Chinese Journal of Integrative Medicine, 10.1007/s11655-018-2570-9, 25, 5, (323-326), (2018). Crossref

                  85. Jeanne Adiwinata Pawitan, Various stem cells in acupuncture meridians and points and their putative roles, Journal of Traditional and Complementary Medicine, 10.1016/j.jtcme.2017.08.004, (2018). Crossref

                  86. Chungda Lee, How can mindfulness-led breathing of qigong/Tai Chi work on qi and the meridian network?, Advances in Integrative Medicine, 10.1016/j.aimed.2018.07.002, 5, 3, (122-127), (2018). Crossref

                  87. Patrick Roynard, Lauren Frank, Huisheng Xie, Margaret Fowler, Acupuncture for Small Animal Neurologic Disorders, Veterinary Clinics of North America: Small Animal Practice, 10.1016/j.cvsm.2017.08.003, 48, 1, (201-219), (2018). Crossref

                  88. Meng Huang, Xuezhi Wang, Beibei Xing, Hongwei Yang, Zheyan Sa, Di Zhang, Wei Yao, Na Yin, Ying Xia, Guanghong Ding, Critical roles of TRPV2 channels, histamine H1 and adenosine A1 receptors in the initiation of acupoint signals for acupuncture analgesia, Scientific Reports, 10.1038/s41598-018-24654-y, 8, 1, (2018). Crossref

                  89. Ruining Liang, Peishuang Li, Xuemei Peng, Ling Xu, Pei Fan, Jiahua Peng, Xu Zhou, Chunlin Xiao, Miao Jiang, Efficacy of acupuncture on pelvic pain in patients with endometriosis: study protocol for a randomized, single-blind, multi-center, placebo-controlled trial, Trials, 10.1186/s13063-018-2684-6, 19, 1, (2018). Crossref

                  90. Wei-bo Zhang, De-xian Jia, Hong-yan Li, Yu-long Wei, Huang Yan, Peng-na Zhao, Fei-fei Gu, Guang-jun Wang, Yan-ping Wang, Understanding Qi Running in the Meridians as Interstitial Fluid Flowing via Interstitial Space of Low Hydraulic Resistance, Chinese Journal of Integrative Medicine, 10.1007/s11655-017-2791-3, 24, 4, (304-307), (2018). Crossref

                  91. Conner E. Liddle, Richard E. Harris, Cellular Reorganization Plays a Vital Role in Acupuncture Analgesia, Medical Acupuncture, 10.1089/acu.2017.1258, 30, 1, (15-20), (2018). Crossref

                  92. 戬云 冯, Relationship among the Meridians, Sinew Channels and Integrative Five Fluid Circulation System, Traditional Chinese Medicine, 10.12677/TCM.2018.71013, 07, 01, (74-92), (2018). Crossref

                  93. David Feinsteina, Energy Psychology: Efficacy, Speed, Mechanisms, EXPLORE, 10.1016/j.explore.2018.11.003, (2018). Crossref

                  94. Hiroie MOTOYAMA, Hirohisa ISOGAI, Yoshito MUKAINO, Relaxing Effect Achieved by Acupuncture Stimulation in Different Postures for University Students Living a Sedentary LifestyleSedentary Lifestyle を送る大学生を対象とした異なる姿勢への鍼刺激によるリラックス効果, Kampo Medicine, 10.3937/kampomed.69.225, 69, 3, (225-238), (2018). Crossref

                  95. Alexander Waits, You-Ren Tang, Hao-Min Cheng, Chen-Jei Tai, Li-Yin Chien, Acupressure effect on sleep quality: A systematic review and meta-analysis, Sleep Medicine Reviews, 10.1016/j.smrv.2016.12.004, 37, (24-34), (2018). Crossref

                  96. Chenglin Liu, Qinghua Liu, Dongming Zhang, Wei Liu, Xiaohui Yan, Xinyi Zhang, Hiroyuki Oyanagi, Zhiyun Pan, Fengchun Hu, Shiqiang Wei, Insight into the biological effects of acupuncture points by X-ray absorption fine structure, Analytical and Bioanalytical Chemistry, 10.1007/s00216-018-1146-z, 410, 20, (4959-4965), (2018). Crossref

                  97. Eric Leskowitz, How Tapping into "Energy" Can Trigger a Paradigm Shift in Biomedicine, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2018.0073, 24, 6, (525-527), (2018). Crossref

                  98. Johannes Fleckenstein, Robert Schleip, Cornelia Sachs, Mark Driscoll, Susan Shockett, Thomas Findley, Werner Klingler, Faszienforschung: Quo vadis? Fascia research: Quo vadis?, Deutsche Zeitschrift für Akupunktur, 10.1007/s42212-018-0037-8, 61, 2, (69-74), (2018). Crossref

                  99. FA Phan, A Srilestari, H Mihardja, MBH Marbun, Effects of acupuncture on uremic pruritus in patients undergoing hemodialysis, Journal of Physics: Conference Series, 10.1088/1742-6596/1073/6/062049, 1073, (062049), (2018). Crossref

                  100. Kwang-Sup Soh, Sistema circulatorio de Bonghan como una extensión de los meridianos de acupuntura, Revista Internacional de Acupuntura, 10.1016/j.acu.2018.02.001, 12, 1, (15-28), (2018). Crossref

                  101. Helene M. Langevin, Peter M. Wayne, What Is the Point? The Problem with Acupuncture Research That No One Wants to Talk About, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2017.0366, 24, 3, (200-207), (2018). Crossref

                  102. Chun-Yi Lin, Tze-Taur Wei, Chen-Chen Wang, Wan-Chen Chen, Yu-Min Wang, Song-Yen Tsai, Acute Physiological and Psychological Effects of Qigong Exercise in Older Practitioners, Evidence-Based Complementary and Alternative Medicine, 10.1155/2018/4960978, 2018, (1-10), (2018). Crossref

                  103. Kanae Umemoto, Toshiyuki Saito, Munekazu Naito, Shogo Hayashi, Tomiko Yakura, Hanno Steinke, Takashi Nakano, Anatomical Relationship between Bl23 and the Posterior Ramus of the L2 Spinal Nerve, Acupuncture in Medicine, 10.1136/acupmed-2015-010847, 34, 2, (95-100), (2018). Crossref

                  104. Krista Lynne Paulson, Barbara L Shay, Sympathetic Nervous System Responses to Acupuncture and Non-Penetrating Sham Acupuncture in Experimental Forearm Pain: A Single-Blind Randomised Descriptive Study, Acupuncture in Medicine, 10.1136/acupmed-2012-010223, 31, 2, (178-184), (2018). Crossref

                  105. Marc Amand, Florence Nguyen-Huu, Costantino Balestra, Acupuncture Effect on Thermal Tolerance and Electrical Pain Threshold: A Randomised Controlled Trial, Acupuncture in Medicine, 10.1136/aim.2010.002485, 29, 1, (47-50), (2018). Crossref

                  106. Michele Alem, Maria Salete Costa Gurgel, Acupuncture in the Rehabilitation of Women after Breast Cancer Surgery – a Case Series, Acupuncture in Medicine, 10.1136/aim.26.2.86, 26, 2, (86-93), (2018). Crossref

                  107. Avijgan Majid, Rouh/Qi before and after production; basic concept of life, International Journal of Complementary & Alternative Medicine, 10.15406/ijcam.2018.11.00363, 11, 2, (2018). Crossref

                  108. Tiaw-Kee Lim, Yan Ma, Frederic Berger, Gerhard Litscher, Acupuncture and Neural Mechanism in the Management of Low Back Pain—An Update, Medicines, 10.3390/medicines5030063, 5, 3, (63), (2018). Crossref

                  109. Anna Esparham, Anne Herbert, Emily Pierzchalski, Catherine Tran, Jennifer Dilts, Madeline Boorigie, Tammie Wingert, Mark Connelly, Jennifer Bickel, Pediatric Headache Clinic Model: Implementation of Integrative Therapies in Practice, Children, 10.3390/children5060074, 5, 6, (74), (2018). Crossref

                  110. Elizabeth R. Magden, Chapter 13 Positive Reinforcement Training and Health Care, Handbook of Primate Behavioral Management, 10.1201/9781315120652, (201-216), (2017). Crossref

                  111. Faria Sanjana, Hans Chaudhry, Thomas Findley, Effect of MELT method on thoracolumbar connective tissue: The full study, Journal of Bodywork and Movement Therapies, 10.1016/j.jbmt.2016.05.010, 21, 1, (179-185), (2017). Crossref

                  112. Peter T. Dorsher, Neuroembryology of the Acupuncture Principal Meridians: Part 1. The Extremities, Medical Acupuncture, 10.1089/acu.2016.1210, 29, 1, (10-19), (2017). Crossref

                  113. Jordi Gascon-Garcia, Caridad Bagur-Calafat, Montserrat Girabent-Farrés, Ramon Balius, Validation of the range of dry needling with the fascial winding technique in the carpal tunnel using ultrasound, Journal of Bodywork and Movement Therapies, 10.1016/j.jbmt.2017.10.013, (2017). Crossref

                  114. Ana Paula A. Ferreira, Luciana C. Póvoa, José F.C. Zanier, Arthur S. Ferreira, Locating the Seventh Cervical Spinous Process: Accuracy of the Thorax-Rib Static Method and the Effects of Clinical Data on Its Performance, Journal of Manipulative and Physiological Therapeutics, 10.1016/j.jmpt.2016.10.011, 40, 2, (98-105), (2017). Crossref

                  115. Arya Nielsen, Acupuncture for the Prevention of Tension-Type Headache (2016), EXPLORE: The Journal of Science and Healing, 10.1016/j.explore.2017.03.007, 13, 3, (228-231), (2017). Crossref

                  116. Fan Wang, Guang-wei Cui, Le Kuai, Jian-min Xu, Ting-ting Zhang, Huai-jin Cheng, Hong-sheng Dong, Gui-rong Dong, Role of Acupoint Area Collagen Fibers in Anti-Inflammation of Acupuncture Lifting and Thrusting Manipulation, Evidence-Based Complementary and Alternative Medicine, 10.1155/2017/2813437, 2017, (1-8), (2017). Crossref

                  117. Wei-Chia Chen, Hsiang-Ying Chen, Yu-Sheng Chen, Yong Tian, Lin I, Self-excited multi-scale skin vibrations probed by optical tracking micro-motions of tracers on arms, Journal of Applied Physics, 10.1063/1.4991499, 122, 2, (024701), (2017). Crossref

                  118. Fletcher Kovich, A Curious Oversight in Acupuncture Research, Journal of Acupuncture and Meridian Studies, 10.1016/j.jams.2017.10.004, 10, 6, (411-415), (2017). Crossref

                  119. David F. Drake, Anne M. Hudak, William Robbins, Integrative Medicine in Traumatic Brain Injury, Physical Medicine and Rehabilitation Clinics of North America, 10.1016/j.pmr.2016.12.011, 28, 2, (363-378), (2017). Crossref

                  120. Helene M. Langevin, Rosa N. Schnyer, Reconnecting the Body in Eastern and Western Medicine, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2017.0028, 23, 4, (238-241), (2017). Crossref

                  121. Salvador Quiroz-González, Sergio Torres-Castillo, Rosa Estela López-Gómez, Ismael Jiménez Estrada, Acupuncture Points and Their Relationship with Multireceptive Fields of Neurons, Journal of Acupuncture and Meridian Studies, 10.1016/j.jams.2017.01.006, 10, 2, (81-89), (2017). Crossref

                  122. Sharon Jiyoon Jung, Haim Song, Yu Yeon Kim, Jungdae Kim, Sungchul Kim, Yoon-Kyu Song, Kwang-Sup Soh, Distribution of Mast Cells and Locations, Depths, and Sizes of the Putative Acupoints CV 8 and KI 16, Evidence-Based Complementary and Alternative Medicine, 10.1155/2017/2953278, 2017, (1-10), (2017). Crossref

                  123. Benjamin CW. Chant, Jeanne Madison, Paul Coop, Gudrun Dieberg, Contact Tools in Japanese Acupuncture: An Ethnography of Acupuncture Practitioners in Japan, Journal of Acupuncture and Meridian Studies, 10.1016/j.jams.2017.08.006, 10, 5, (331-339), (2017). Crossref

                  124. Hugh MacPherson, Andrew Vickers, Martin Bland, David Torgerson, Mark Corbett, Eldon Spackman, Pedro Saramago, Beth Woods, Helen Weatherly, Mark Sculpher, Andrea Manca, Stewart Richmond, Ann Hopton, Janet Eldred, Ian Watt, Acupuncture for chronic pain and depression in primary care: a programme of research, Programme Grants for Applied Research, 10.3310/pgfar05030, 5, 3, (1-316), (2017). Crossref

                  125. Benjamin Kligler, Arya Nielsen, Corinne Kohrherr, Tracy Schmid, Eve Waltermaurer, Elidania Perez, Woodson Merrell, Acupuncture Therapy in a Group Setting for Chronic Pain, Pain Medicine, 10.1093/pm/pnx134, (2017). Crossref

                  126. Alexander Macdonald, Acupuncture Main Channels or Meridians: Visible Surfaces, International Journal of Complementary & Alternative Medicine, 10.15406/ijcam.2017.07.00233, 7, 4, (2017). Crossref

                  127. Roshanak Ghods, Nasrin Sayfouri, Mohammad Hossein Ayati, Anatomical Features of the Interscapular Area Where Wet Cupping Therapy Is Done and Its Possible Relation to Acupuncture Meridians, Journal of Acupuncture and Meridian Studies, 10.1016/j.jams.2016.06.004, 9, 6, (290-296), (2016). Crossref

                  128. Laura Quiles, Electra Peluffo, Meridianos tendinomusculares (Jīng Jīn) y tejido fascial, comparativa anatómica y funcional, Revista Internacional de Acupuntura, 10.1016/j.acu.2016.01.002, 10, 1, (20-24), (2016). Crossref

                  129. Tian Tian, Yanhong Sun, Huangan Wu, Jian Pei, Jing Zhang, Yi Zhang, Lu Wang, Bin Li, Lihua Wang, Jiye Shi, Jun Hu, Chunhai Fan, Acupuncture promotes mTOR-independent autophagic clearance of aggregation-prone proteins in mouse brain, Scientific Reports, 10.1038/srep19714, 6, 1, (2016). Crossref

                  130. Eric Leskowitz, Integrative Medicine for PTSD and TBI: Two Innovative Approaches, Medical Acupuncture, 10.1089/acu.2016.1168, 28, 4, (181-183), (2016). Crossref

                  131. Sarah le Jeune, Kimberly Henneman, Kevin May, Acupuncture and Equine Rehabilitation, Veterinary Clinics of North America: Equine Practice, 10.1016/j.cveq.2015.12.004, 32, 1, (73-85), (2016). Crossref

                  132. Charlotte H. Y. Lau, Xinyin Wu, Vincent C. H. Chung, Xin Liu, Edwin P. Hui, Holger Cramer, Romy Lauche, Samuel Y. S. Wong, Alexander Y. L. Lau, Regina W. S. Sit, Eric T. C. Ziea, Bacon F. L. Ng, Justin C. Y. Wu, Acupuncture and Related Therapies for Symptom Management in Palliative Cancer Care, Medicine, 10.1097/MD.0000000000002901, 95, 9, (e2901), (2016). Crossref

                  133. Li Chen, Hai-Xiang Sun, You-Bing Xia, Liu-Cai Sui, Ji Zhou, Xuan Huang, Jing-Wei Zhou, Yi-Dan Shao, Tao Shen, Qin Sun, Yuan-Jiao Liang, Bing Yao, Electroacupuncture decreases the progression of ovarian hyperstimulation syndrome in a rat model, Reproductive BioMedicine Online, 10.1016/j.rbmo.2016.02.006, 32, 5, (538-544), (2016). Crossref

                  134. Suzanne B. Hanser, Suzanne B. Hanser, Holistic Healing, Integrative Health through Music Therapy, 10.1057/978-1-137-38477-5, (35-54), (2016). Crossref

                  135. Harding, E.E., Kim, J.C., Demos, A.P. et al. Musical neurodynamics. Nat. Rev. Neurosci. (2025). Crossref

                  136. Laurent Misery, Acupuncture, Pruritus, 10.1007/978-3-319-33142-3, (437-441), (2016). Crossref

                  137. Jing-Ke Guo, Ming-Ming Xu, Mei-Feng Zheng, Shu-Tao Liu, Jian-Wu Zhou, Li-Jing Ke, Tian-Bao Chen, Ping-Fan Rao, Topical Application of TAT-Superoxide Dismutase in Acupoints LI 20 on Allergic Rhinitis, Evidence-Based Complementary and Alternative Medicine, 10.1155/2016/3830273, 2016, (1-9), (2016). Crossref

                  138. James L. Oschman, Acupuncture, Acupressure, Shiatsu, and Related Therapies, Energy Medicine, 10.1016/B978-0-443-06729-7.00014-4, (221-239), (2016). Crossref

                  139. Motti Ratmansky, Adi Levy, Aviv Messinger, Alla Birg, Lilach Front, Iuly Treger, The Effects of Acupuncture on Cerebral Blood Flow in Post-Stroke Patients: A Randomized Controlled Trial, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2015.0066, 22, 1, (33-37), (2016). Crossref

                  140. Marzio Vanzini, Michele Gallamini, Amblyopia: Can Laser Acupuncture be an Option?, Journal of Acupuncture and Meridian Studies, 10.1016/j.jams.2016.01.017, 9, 5, (267-274), (2016). Crossref

                  141. Bo M. Rowan†, J. Bryan Dixon, Complementary Medicine Practices for Muscular Injuries of the Posterior Leg, Muscular Injuries in the Posterior Leg, 10.1007/978-1-4899-7651-2, (153-168), (2016). Crossref

                  142. HyunSuk Jang, Joohwan Yoon, HyunJi Gil, Sharon Jiyoon Jung, Min-Suk Kim, Jin-Kyu Lee, Young-Jae Kim, Kwang-Sup Soh, Observation of a Flowing Duct in the Abdominal Wall by Using Nanoparticles, PLOS ONE, 10.1371/journal.pone.0150423, 11, 3, (e0150423), (2016). Crossref

                  143. Richard Cha, Detecting Intrinsic Movements through Needle Tips Pinned at Zusanli ST-36 Point - a New Method for Characterizing Structures for Acupuncture Treatments, International Journal of Complementary & Alternative Medicine, 10.15406/ijcam.2016.03.00100, 3, 6, (2016). Crossref

                  144. Raphael J. Hochstrasser, P. Christian Endler, Sabine D. Klein, Perception of Therapeutic Qi, a Nonmechanical, Nonpsychological Factor in Acupuncture That Originates from the Therapist, Journal of Acupuncture and Meridian Studies, 10.1016/j.jams.2014.11.009, 8, 4, (203-208), (2015). Crossref

                  145. Carla Stecco, Warren Hammer, Andry Vleeming, Raffaele De Caro, Fasciae of the Upper Limb, Functional Atlas of the Human Fascial System, 10.1016/B978-0-7020-4430-4.00007-5, (217-287), (2015). Crossref

                  146. Shu-Ming Wang, Acupuncture as a Treatment for Substance Abuse in Pediatric Patients, Substance Abuse, 10.1007/978-1-4939-1951-2, (349-357), (2015). Crossref

                  147. Mei-Ling Wu, Dong-Sheng Xu, Wan-Zhu Bai, Jing-Jing Cui, Hong-Ming Shu, Wei He, Xiao-Yu Wang, Hong Shi, Yang-Shuai Su, Ling Hu, Bing Zhu, Xiang-Hong Jing, Local cutaneous nerve terminal and mast cell responses to manual acupuncture in acupoint LI4 area of the rats, Journal of Chemical Neuroanatomy, 10.1016/j.jchemneu.2015.06.002, 68, (14-21), (2015). Crossref

                  148. Mark J. McDonald, Will the Primo Vascular System Finally Solve the Mystery of Acupuncture?, Medical Acupuncture, 10.1089/acu.2014.1075, 27, 1, (33-37), (2015). Crossref

                  149. Wei-Bo Zhang, Guang-Jun Wang, Kjell Fuxe, Classic and Modern Meridian Studies: A Review of Low Hydraulic Resistance Channels along Meridians and Their Relevance for Therapeutic Effects in Traditional Chinese Medicine, Evidence-Based Complementary and Alternative Medicine, 10.1155/2015/410979, 2015, (1-14), (2015). Crossref

                  150. Xiaqiu Wu, Jin Peng, Guoqin Li, Wei Zhang, Guangxia Liu, Baoyan Liu, Efficacy evaluation of summer acupoint application treatment on asthma patients: a two-year follow-up clinical study, Journal of Traditional Chinese Medicine, 10.1016/S0254-6272(15)30004-2, 35, 1, (21-27), (2015). Crossref

                  151. Won-Mo Jung, Taehyung Lee, In-Seon Lee, Sanghyun Kim, Hyunchul Jang, Song-Yi Kim, Hi-Joon Park, Younbyoung Chae, Spatial Patterns of the Indications of Acupoints Using Data Mining in Classic Medical Text: A Possible Visualization of the Meridian System, Evidence-Based Complementary and Alternative Medicine, 10.1155/2015/457071, 2015, (1-7), (2015). Crossref

                  152. Kwang-Sup Soh, Hypothesis on the Treatment of Gliomas with Acupuncture at the Primo Node Corresponding to Zusanli (ST 36) , Medical Acupuncture, 10.1089/acu.2014.1089, 27, 3, (144-150), (2015). Crossref

                  153. Marco Gemma, Elisa Nicelli, Luigi Gioia, Elena Moizo, Luigi Beretta, Maria Rosa Calvi, Acupuncture accelerates recovery after general anesthesia: a prospective randomized controlled trial, Journal of Integrative Medicine, 10.1016/S2095-4964(15)60159-5, 13, 2, (99-104), (2015). Crossref

                  154. Michele Gallamini, Giovanni D'Angelo, Gabriele Belloni, Biolite: A Patented Ultra-Low-Level Laser-Therapy Device for Treating Musculoskeletal Pain and Associated Impairments, Journal of Acupuncture and Meridian Studies, 10.1016/j.jams.2015.02.001, 8, 4, (167-174), (2015). Crossref

                  155. Poney Chiang, What is the Point of Acupuncture?, Medical Acupuncture, 10.1089/acu.2015.1093, 27, 2, (67-80), (2015). Crossref

                  156. Richard F. Hobbs, Acupuncture—Biophysics or Metaphysics?, Medical Acupuncture, 10.1089/acu.2015.1097, 27, 2, (62-66), (2015). Crossref

                  157. Ali Khorsand, Jiang Zhu, Hamidreza Bahrami-Taghanaki, Sara Baghani, Liangxiao Ma, Shima Rezaei, Investigation of the electrical impedance of acupuncture points and non-acupuncture points before and after acupuncture, using a four-electrode device, Acupuncture in Medicine, 10.1136/acupmed-2014-010697, 33, 3, (230-236), (2015). Crossref

                  158. Fang Li, Tian He, Qian Xu, Li‐Ting Lin, Hui Li, Yan Liu, Guang‐Xia Shi, Cun‐Zhi Liu, What is the Acupoint? A preliminary review of Acupoints, Pain Medicine, 10.1111/pme.12761, 16, 10, (1905-1915), (2015). Wiley Online Library

                  159. Song-Yi Kim, Sang-Woo Kim, Hi-Joon Park, Different Responses to Acupuncture in Electroencephalogram according to Stress Level: A Randomized, Placebo-Controlled, Cross-Over Trial, Korean Journal of Acupuncture, 10.14406/acu.2014.022, 31, 3, (136-145), (2014). Crossref

                  160. Heming Zhu, Acupoints Initiate the Healing Process, Medical Acupuncture, 10.1089/acu.2014.1057, 26, 5, (264-270), (2014). Crossref

                  161. G. Ding, Z. Wu, D. Zhang, Z. Sa, K. Cheng, Biophysical Bases of Acupuncture, Comprehensive Biomedical Physics, 10.1016/B978-0-444-53632-7.01018-2, (299-316), (2014). Crossref

                  162. Yuan-yuan Lin, Yin-ping Wang, Hao-yang Lu, Xiu-cai Guo, Xia Liu, Chuan-bin Wu, Yue-hong Xu, Plasma pharmacokinetics and lung distribution of tetrahydropalmatine after topical application of cold asthma recipe extract: Feishu (BL 13) versus Non-Feishu acupoint, Journal of Ethnopharmacology, 10.1016/j.jep.2014.03.009, 153, 2, (454-460), (2014). Crossref

                  163. Yiu Ming Wong, Electrical Property of Acupoints, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2013.0169, 20, 2, (145-146), (2014). Crossref

                  164. Nadia Elisabeth Haddad, Oxana Palesh, Acupuncture in the Treatment of Cancer-Related Psychological Symptoms, Integrative Cancer Therapies, 10.1177/1534735413520181, 13, 5, (371-385), (2014). Crossref

                  165. Soo-Byeong Kim, Kyung-Yul Chung, Mi-Seon Jeon, Tae-Min Shin, Yong-Heum Lee, Body Composition Factor Comparisons of the Intracellular Fluid (ICW), Extracellular Fluid (ECW) and Cell Membrane at Acupuncture Points and Non-Acupuncture Points by Inducing Multiple Ionic Changes, Korean Journal of Acupuncture, 10.14406/acu.2014.005, 31, 2, (66-78), (2014). Crossref

                  166. Martha Liliana Beltrán Molano, Laura Bibiana Pinilla Bonilla, Eduardo Humberto Beltrán Dussan, Carlos Alberto Vásquez Londoño, Anatomo-Functional Correlation between Head Zones and Acupuncture Channels and Points: A Comparative Analysis from the Perspective of Neural Therapy, Evidence-Based Complementary and Alternative Medicine, 10.1155/2014/836392, 2014, (1-12), (2014). Crossref

                  167. Evan H. Kwong, Thomas W. Findley, Fascia–Current knowledge and future directions in physiatry: Narrative review, Journal of Rehabilitation Research and Development, 10.1682/JRRD.2013.10.0220, 51, 6, (875-884), (2014). Crossref

                  168. Kwokming James Cheng, Neurobiological Mechanisms of Acupuncture for Some Common Illnesses: A Clinician's Perspective, Journal of Acupuncture and Meridian Studies, 10.1016/j.jams.2013.07.008, 7, 3, (105-114), (2014). Crossref

                  169. Jing-Wen Yang, Qian-Qian Li, Fang Li, Qing-Nan Fu, Xiang-Hong Zeng, Cun-Zhi Liu, The Holistic Effects of Acupuncture Treatment, Evidence-Based Complementary and Alternative Medicine, 10.1155/2014/739708, 2014, (1-10), (2014). Crossref

                  170. Shu-Yih Wu, Wei-Hsin Chen, Ching-Liang Hsieh, Yi-Wen Lin, Abundant expression and functional participation of TRPV1 at Zusanli acupoint (ST36) in mice: mechanosensitive TRPV1 as an "acupuncture-responding channel", BMC Complementary and Alternative Medicine, 10.1186/1472-6882-14-96, 14, 1, (2014). Crossref

                  171. Morry Silberstein, Is acupuncture "stimulation" a misnomer? A case for using the term "blockade", BMC Complementary and Alternative Medicine, 10.1186/1472-6882-13-68, 13, 1, (2013). Crossref

                  172. In-Seon Lee, Soon-Ho Lee, Song-Yi Kim, Hyejung Lee, Hi-Joon Park, Younbyoung Chae, Visualization of the Meridian System Based on Biomedical Information about Acupuncture Treatment, Evidence-Based Complementary and Alternative Medicine, 10.1155/2013/872142, 2013, (1-5), (2013). Crossref

                  173. Helene M. Langevin, Part 1, Trigger Point Dry Needling, 10.1016/B978-0-7020-4601-8.10008-8, (29-33), (2013). Crossref

                  174. Byung-Cheon Lee, Walter J. Akers, Xianghong Jing, M. Isabel Miguel Perez, Yeonhee Ryu, Primo Vascular System: Past, Present, and Future, Evidence-Based Complementary and Alternative Medicine, 10.1155/2013/240168, 2013, (1-2), (2013). Crossref

                  175. Andrew Bannan, Acupuncture in physiotherapy, Tidy's Physiotherapy, 10.1016/B978-0-7020-4344-4.00018-3, (403-415), (2013). Crossref

                  176. Im Quah-Smith, Caroline Smith, John D. Crawford, Janice Russell, Laser acupuncture for depression: A randomised double blind controlled trial using low intensity laser intervention, Journal of Affective Disorders, 10.1016/j.jad.2012.11.058, 148, 2-3, (179-187), (2013). Crossref

                  177. C. Will Chen, Chen-Jei Tai, Cheuk-Sing Choy, Chau-Yun Hsu, Shoei-Loong Lin, Wing P. Chan, Han-Sun Chiang, Chang-An Chen, Ting-Kai Leung, Wave-Induced Flow in Meridians Demonstrated Using Photoluminescent Bioceramic Material on Acupuncture Points, Evidence-Based Complementary and Alternative Medicine, 10.1155/2013/739293, 2013, (1-11), (2013). Crossref

                  178. Raphael J. Hochstrasser, P. Christian Endler, Sabine D. Klein, Introduction of two novel devices for investigating the influence of non-mechanical components such as therapeutic qi in acupuncture, Journal of Integrative Medicine, 10.3736/jintegrmed2013030, 11, 3, (168-174), (2013). Crossref

                  179. W. Evan Rivers, Felise Zollman, Reliability of Surface Acupuncture Point Location, Medical Acupuncture, 10.1089/acu.2012.0929, 25, 2, (134-140), (2013). Crossref

                  180. Stefano Marcelli, Gross Anatomy and Acupuncture: A Comparative Approach to Reappraise the Meridian System, Medical Acupuncture, 10.1089/acu.2012.0875, 25, 1, (5-22), (2013). Crossref

                  181. Jaung-Geng Lin, Pei-Chi Chou, Heng-Yi Chu, An Exploration of the Needling Depth in Acupuncture: The Safe Needling Depth and the Needling Depth of Clinical Efficacy, Evidence-Based Complementary and Alternative Medicine, 10.1155/2013/740508, 2013, (1-21), (2013). Crossref

                  182. DARCY A. UMPHRED, CAROL M. DAVIS, MARY LOU GALANTINO, Complementary and alternative therapies: beyond traditional approaches to intervention in neurological diseases and movement disorders, Neurological Rehabilitation, 10.1016/B978-0-323-07586-2.00048-0, (1173-1214), (2013). Crossref

                  183. Alessandra de Almeida Fagundes, Mariana César Ribeiro Reis, Maíra Salles, Maria Graças Bastos Licurci, Immediate Effects of Acupuncture for Managing Myofascial Trigger-Point Pain: A Pilot Study, Medical Acupuncture, 10.1089/acu.2012.0902, 25, 1, (55-60), (2013). Crossref

                  184. Yi Zhuang, Jing-jing Xing, Juan Li, Bai-Yun Zeng, Fan-rong Liang, History of Acupuncture Research, Neurobiology of Acupuncture, 10.1016/B978-0-12-411545-3.00001-8, (1-23), (2013). Crossref

                  185. Arya Nielsen, Ted J. Kaptchuk, Sha syndrome and Gua sha, cao gio, coining, scraping, Gua Sha, 10.1016/B978-0-7020-3108-3.00005-4, (39-44), (2013). Crossref

                  186. Arya Nielsen, Ted J. Kaptchuk, Physiology of Gua sha, Gua Sha, 10.1016/B978-0-7020-3108-3.00003-0, (21-30), (2013). Crossref

                  187. Shirley P.C. Ngai, Alice Y.M. Jones, Changes in Skin Impedance and Heart Rate Variability with Application of Acu-TENS to BL 13 ( Feishu ) , The Journal of Alternative and Complementary Medicine, 10.1089/acm.2012.0097, 19, 6, (558-563), (2013). Crossref

                  188. Isabelle Nègre, Méthodes non médicamenteuses : compréhension actuelle des mécanismes d'action, Douleurs : Evaluation - Diagnostic - Traitement, 10.1016/j.douler.2013.01.007, 14, 3, (111-118), (2013). Crossref

                  189. Guanghong Ding, Di Zhang, Meng Huang, Lina Wang, Wei Yao, Function of Collagen and Mast Cells in Acupuncture Points, Current Research in Acupuncture, 10.1007/978-1-4614-3357-6, (53-87), (2013). Crossref

                  190. Sung‐Ho Lee, Geon‐Ho Jahng, Il‐Hwan Choe, Chi‐Bong Choi, Dae‐Hyun Kim, Hwi‐Yool Kim, Neural Pathway Interference by Retained Acupuncture: A Functional MRI Study of a Dog Model of Parkinson's Disease, CNS Neuroscience & Therapeutics, 10.1111/cns.12108, 19, 8, (585-595), (2013). Wiley Online Library

                  191. Hee Young Kim, Sung Tae Koo, Jae Hyo Kim, Kyungeh An, Kyungsoon Chung, Jin Mo Chung, Electroacupuncture analgesia in rat ankle sprain pain model: neural mechanisms, Neurological Research, 10.1179/016164109X12537002793689, 32, sup1, (10-17), (2013). Crossref

                  192. ChangShik Yin, ByungKwan Seo, Hi-Joon Park, Miran Cho, WooSang Jung, Ryowon Choue, ChangHwan Kim, Hun-Kuk Park, Hyejung Lee, HyeongGyun Koh, Acupuncture, a promising adjunctive therapy for essential hypertension: a double-blind, randomized, controlled trial, Neurological Research, 10.1179/016164107X172220, 29, sup1, (98-103), (2013). Crossref

                  193. Gary Deng, Barrie Cassileth, Complementary or alternative medicine in cancer care—myths and realities, Nature Reviews Clinical Oncology, 10.1038/nrclinonc.2013.125, 10, 11, (656-664), (2013). Crossref

                  194. James L Oschman, Fascia as a body-wide communication system, Fascia: The Tensional Network of the Human Body, 10.1016/B978-0-7020-3425-1.00049-0, (103-110), (2012). Crossref

                  195. David Feinstein, Acupoint Stimulation in Treating Psychological Disorders: Evidence of Efficacy, Review of General Psychology, 10.1037/a0028602, 16, 4, (364-380), (2012). Crossref

                  196. Jun J. Mao, Malini M. Khanna, Integrating Acupuncture with Western Medicine in Cancer Treatment, Acupuncture and Moxibustion as an Evidence-based Therapy for Cancer, 10.1007/978-94-007-4833-0_14, (313-328), (2012). Crossref

                  197. Alex Benham, Mark I. Johnson, Characterization of Painful and Non-painful Acupuncture Needle Sensations During Bidirectional Rotation of a Single Needle Inserted 15–25 mm at Large Intestine 10, Medical Acupuncture, 10.1089/acu.2011.0861, 24, 3, (172-180), (2012). Crossref

                  198. Li-Ling Lin, Ya-Hui Wang, Chi-Yu Lai, Chan-Lao Chau, Guan-Chin Su, Chun-Yi Yang, Shu-Ying Lou, Szu-Kai Chen, Kuan-Hao Hsu, Yen-Ling Lai, Wei-Ming Wu, Jian-Long Huang, Chih-Hsin Liao, Hsueh-Fen Juan, Systems Biology of Meridians, Acupoints, and Chinese Herbs in Disease, Evidence-Based Complementary and Alternative Medicine, 10.1155/2012/372670, 2012, (1-13), (2012). Crossref

                  199. Arya Nielsen, Gua sha, Fascia: The Tensional Network of the Human Body, 10.1016/B978-0-7020-3425-1.00009-X, (359-365), (2012). Crossref

                  200. Hugh MacPherson, Richard Hammerschlag, Acupuncture and the Emerging Evidence Base: Contrived Controversy and Rational Debate, Journal of Acupuncture and Meridian Studies, 10.1016/j.jams.2012.05.001, 5, 4, (141-147), (2012). Crossref

                  201. Yejin Ha, Misun Kim, Jiseon Nah, Minah Suh, Youngmi Lee, Measurements of Location-Dependent Nitric Oxide Levels on Skin Surface in relation to Acupuncture Point, Evidence-Based Complementary and Alternative Medicine, 10.1155/2012/781460, 2012, (1-7), (2012). Crossref

                  202. Elisabeth Hsu, "Feeling lighter": Why the patient's treatment evaluation matters to the health scientist, Integrative Medicine Research, 10.1016/j.imr.2012.10.003, 1, 1, (5-12), (2012). Crossref

                  203. Petra I. Bäumler, Michael Simang, Sybille Kramer, Dominik Irnich, Acupuncture Point Localization Varies Among Acupuncturists, Forschende Komplementärmedizin / Research in Complementary Medicine, 10.1159/000335825, 19, 1, (31-37), (2012). Crossref

                  204. Belinda Anderson, Arya Nielsen, Diane McKee, Anne Jeffres, Ben Kligler, Acupuncture and Heart Rate Variability: A Systems Level Approach to Understanding Mechanism, EXPLORE: The Journal of Science and Healing, 10.1016/j.explore.2011.12.002, 8, 2, (99-106), (2012). Crossref

                  205. Xiaoyu Wang, Hong Shi, Hongyan Shang, Yangshuai Su, Juanjuan Xin, Wei He, Xianghong Jing, Bing Zhu, Are Primo Vessels (PVs) on the Surface of Gastrointestine Involved in Regulation of Gastric Motility Induced by Stimulating Acupoints ST36 or CV12?, Evidence-Based Complementary and Alternative Medicine, 10.1155/2012/787683, 2012, (1-8), (2012). Crossref

                  206. Dominik Irnich, Johannes Fleckenstein, Acupuncture as a fascia-oriented therapy, Fascia: The Tensional Network of the Human Body, 10.1016/B978-0-7020-3425-1.00010-6, (349-357), (2012). Crossref

                  207. Byung-Cheon Lee, Zhendong Su, Baeckkyoung Sung, Ki Woo Kim, Jin-Myung Cha, Jin-Kyu Lee, Byung-Joon Chang, Kwang-Sup Soh, Network of the Primo Vascular System in the Rat Hypodermis, The Primo Vascular System, 10.1007/978-1-4614-0601-3, (139-146), (2012). Crossref

                  208. Kyoung-Hee Bae, Zhendong Su, Kwang-Sup Soh, Hee Min Kwon, Histological Comparison of Primo Nodes in Abdominal Membrane and Lymph Nodes of Rat, The Primo Vascular System, 10.1007/978-1-4614-0601-3, (127-131), (2012). Crossref

                  209. Yu Bai, Lin Yuan, Yong Huang, Chun-lei Wang, Jun Wang, Jin-peng Wu, Jing-xing Dai, Dong-fei Li, Chun Yang, Mei-chun Yu, Hui-ying Yang, Hui Tao, Ou Sha, David Tai Wai Yew, From the Anatomical Discovery of Meridians and Collaterals to Fasciaology Theory, The Primo Vascular System, 10.1007/978-1-4614-0601-3, (305-318), (2012). Crossref

                  210. Wei Yao, Yabei Li, Guanghong Ding, Interstitial Fluid Flow: The Mechanical Environment of Cells and Foundation of Meridians, Evidence-Based Complementary and Alternative Medicine, 10.1155/2012/853516, 2012, (1-9), (2012). Crossref

                  211. Jungdae Kim, Dae-In Kang, Kwang-Sup Soh, Sungchul Kim, Analysis on Postmortem Tissues at Acupuncture Points in the Image Datasets of Visible Human Project, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2010.0850, 18, 2, (120-129), (2012). Crossref

                  212. Marcelo L Silva, Josie RT Silva, Wiliam A Prado, The antinociceptive effect of electroacupuncture at different depths of acupoints and under the needling surface, Chinese Medicine, 10.1186/1749-8546-7-3, 7, 1, (2012). Crossref

                  213. Hong-Qin Yang, Shu-Sen Xie, Song-Hao Liu, Hui Li, Zhou-Yi Guo, Differences in Optical Transport Properties between Human Meridian and Non-meridian, The American Journal of Chinese Medicine, 10.1142/S0192415X07005235, 35, 05, (743-752), (2012). Crossref

                  214. Kaung-Ti Yung, A Birdcage Model for the Chinese Meridian System Part VI: Meridians as the Primary Regulatory System, The American Journal of Chinese Medicine, 10.1142/S0192415X05003302, 33, 05, (759-766), (2012). Crossref

                  215. Letter to the Editor, The American Journal of Chinese Medicine, 10.1142/S0192415X05003119, 33, 03, (513-515), (2012). Crossref

                  216. A. Paraskeva, A. Melemeni, G. Petropoulos, I. Siafaka, A. Fassoulaki, Needling of the Extra 1 Point Decreases BIS Values and Preoperative Anxiety, The American Journal of Chinese Medicine, 10.1142/S0192415X04002363, 32, 05, (789-794), (2012). Crossref

                  217. Francisco Abad-Alegría, Carlos Pomarón, About the Neurobiological Foundations of the De-Qi — Stimulus-Response Relation , The American Journal of Chinese Medicine, 10.1142/S0192415X04002375, 32, 05, (807-814), (2012). Crossref

                  218. Jesse Li-Ling, Human Phenome Based on Traditional Chinese Medicine — A Solution to Congenital Syndromology, The American Journal of Chinese Medicine, 10.1142/S0192415X03001594, 31, 06, (991-1000), (2012). Crossref

                  219. Lisa S. Lancaster, Robert M. Bowker, Acupuncture Points of the Horse's Distal Thoracic Limb: A Neuroanatomic Approach to the Transposition of Traditional Points, Animals, 10.3390/ani2030455, 2, 4, (455-471), (2012). Crossref

                  220. Houju Fu, Yuanqiao He, Ying Gao, Yicun Man, Wukun Liu, Hua Hao, Acupuncture on the Endometrial Morphology, the Serum Estradiol and Progesterone Levels, and the Expression of Endometrial Leukaemia-inhibitor Factor and Osteopontin in Rats, Evidence-Based Complementary and Alternative Medicine, 10.1155/2011/606514, 2011, (1-9), (2011). Crossref

                  221. Steven Finando, Donna Finando, Fascia and the mechanism of acupuncture, Journal of Bodywork and Movement Therapies, 10.1016/j.jbmt.2010.03.001, 15, 2, (168-176), (2011). Crossref

                  222. Hyung-Joo Moon, Yong-Keun Lee, The Relationship Between Dental Occlusion/Temporomandibular Joint Status and General Body Health: Part 2. Fascial Connection of TMJ with Other Parts of the Body, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2010.0740, 17, 12, (1119-1124), (2011). Crossref

                  223. Yu Bai, Jun Wang, Jin-peng Wu, Jing-xing Dai, Ou Sha, David Tai Wai Yew, Lin Yuan, Qiu-ni Liang, Review of Evidence Suggesting That the Fascia Network Could Be the Anatomical Basis for Acupoints and Meridians in the Human Body, Evidence-Based Complementary and Alternative Medicine, 10.1155/2011/260510, 2011, (1-6), (2011). Crossref

                  224. James L. Oschman, Foreword and Special Contribution: The Living Matrix, Energy Medicine East and West, 10.1016/B978-0-7020-3571-5.00032-9, (x-xix), (2011). Crossref

                  225. Therapie myofaszialer Schmerzsyndrome, Myofasziale Schmerzen und Triggerpunkte, 10.1016/B978-3-437-23095-0.10004-5, (51-91), (2011). Crossref

                  226. Xiangeng Zhang, Hui Zhang, Xiaoli Liang, Qin Liu, Miqu Wang, Gynecology and Gynecological Nursing Theories and Practices in Traditional Chinese Medicine: Review on the Ancient Literatures, Chinese Medicine, 10.4236/cm.2011.23014, 02, 03, (77-83), (2011). Crossref

                  227. Pei-Chi Chou, Heng-Yi Chu, Jaung-Geng Lin, Safe Needling Depth of Acupuncture Points, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2010.0192, 17, 3, (199-206), (2011). Crossref

                  228. References and further reading, Energy Medicine East and West, 10.1016/B978-0-7020-3571-5.00037-8, (339-382), (2011). Crossref

                  229. Dongming Zhang, Xiaohui Yan, Xinyi Zhang, Chenglin Liu, Ruishan Dang, Tiqiao Xiao, Peiping Zhu, Synchrotron radiation phase-contrast X-ray CT imaging of acupuncture points, Analytical and Bioanalytical Chemistry, 10.1007/s00216-011-4913-7, 401, 3, (803-808), (2011). Crossref

                  230. Stéphane J‐P. Egot‐Lemaire, Marvin C. Ziskin, Dielectric properties of human skin at an acupuncture point in the 50–75 GHz frequency range: A pilot study, Bioelectromagnetics, 10.1002/bem.20650, 32, 5, (360-366), (2011). Wiley Online Library

                  231. Chi Eung Danforn Lim, Felix Wu Shun Wong, Warren Smith, Factors influencing the bio-impedance data in tissue segments along the three arm meridians: a pilot study, TANG [HUMANITAS MEDICINE], 10.5667/tang.2011.0004, 1, 1, (7.1-7.9), (2011). Crossref

                  232. Luigi Baratto, Laura Calzà, Roberto Capra, Michele Gallamini, Luciana Giardino, Alessandro Giuliani, Luca Lorenzini, Silvano Traverso, Ultra-low-level laser therapy, Lasers in Medical Science, 10.1007/s10103-010-0837-2, 26, 1, (103-112), (2010). Crossref

                  233. Yavuz Beyazit, Murat Kekilli, Fatma Beyazit, Sticking the pieces together: A unifying hypothesis for the acupuncture meridian pathways and extracellular signalling, Medical Hypotheses, 10.1016/j.mehy.2010.01.022, 74, 6, (1088), (2010). Crossref

                  234. Hugh Gemmell, Peter Miller, Relative effectiveness and adverse effects of cervical manipulation, mobilisation and the activator instrument in patients with sub-acute non-specific neck pain: results from a stopped randomised trial, Chiropractic & Osteopathy, 10.1186/1746-1340-18-20, 18, 1, (2010). Crossref

                  235. Peter T. Dorsher, Clinical Equivalence of Laser Needle to Metal Acupuncture Needle in Treating Musculoskeletal Pain: A Pilot Study, Medical Acupuncture, 10.1089/acu.2009.0724, 22, 1, (11-17), (2010). Crossref

                  236. Marco Antonio Helio da Silva, A Neurosegmental Perspective of the Classical Back Shu Points, Medical Acupuncture, 10.1089/acu.2010.0762, 22, 4, (257-264), (2010). Crossref

                  237. Laurent Misery, Laurence Potin-Richard, Itch and Acupuncture, Pruritus, 10.1007/978-1-84882-322-8, (335-338), (2010). Crossref

                  238. Guang Ying Huang, Cui Hong Zheng, Yun Xia Wu, Wei Wang, Involvement of connexin 43 in the acupuncture effect of improving rat blastocyst implantation, Fertility and Sterility, 10.1016/j.fertnstert.2009.09.036, 93, 5, (1715-1717), (2010). Crossref

                  239. Felix Wu Shun Wong, Chi Eung Danforn Lim, Warren Smith, A New Bioimpedance Research Device (BIRD) for Measuring the Electrical Impedance of Acupuncture Meridians, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2009.0218, 16, 3, (257-264), (2010). Crossref

                  240. Jennifer A. M. Stone, Peter A. S. Johnstone, Mechanisms of Action for Acupuncture in the Oncology Setting, Current Treatment Options in Oncology, 10.1007/s11864-010-0128-y, 11, 3-4, (118-127), (2010). Crossref

                  241. Yu Bai, Lin Yuan, Kwang-Sup Soh, Byung-Cheon Lee, Yong Huang, Chun-lei Wang, Jun Wang, Jin-peng Wu, Jing-xing Dai, Janos Palhalmi, Ou Sha, David Tai Wai Yew, Possible Applications for Fascial Anatomy and Fasciaology in Traditional Chinese Medicine, Journal of Acupuncture and Meridian Studies, 10.1016/S2005-2901(10)60023-4, 3, 2, (125-132), (2010). Crossref

                  242. Peter T. Dorsher, The Languages of Healing: Linked by a Common Thread, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2009.0527, 16, 8, (907-913), (2010). Crossref

                  243. Fei Zhou, Dengkai Huang YingXia, Neuroanatomic Basis of Acupuncture Points, Acupuncture Therapy for Neurological Diseases, 10.1007/978-3-642-10857-0, (32-80), (2010). Crossref

                  244. Roeland van Wijk, Jan van der Greef, Eduard van Wijk, Human Ultraweak Photon Emission and the Yin Yang Concept of Chinese Medicine, Journal of Acupuncture and Meridian Studies, 10.1016/S2005-2901(10)60041-6, 3, 4, (221-231), (2010). Crossref

                  245. Pierre Boutouyrie, Robert Corvisier, Kim-Than Ong, Claire Vulser, Catherine Lassalle, Michel Azizi, Brigitte Laloux, Stéphane Laurent, Acute and chronic effects of acupuncture on radial artery: A randomized double blind study in migraine, Artery Research, 10.1016/j.artres.2009.12.003, 4, 1, (7-14), (2010). Crossref

                  246. Jun J. Mao, Rahul Kapur, Acupuncture in Primary Care, Primary Care: Clinics in Office Practice, 10.1016/j.pop.2009.09.010, 37, 1, (105-117), (2010). Crossref

                  247. Andrew C. Ahn, Min Park, Jessica R. Shaw, Claire A. McManus, Ted J. Kaptchuk, Helene M. Langevin, Electrical Impedance of Acupuncture Meridians: The Relevance of Subcutaneous Collagenous Bands, PLoS ONE, 10.1371/journal.pone.0011907, 5, 7, (e11907), (2010). Crossref

                  248. Kang Cheng, Chang Hua Zou, Information Models of Acupuncture Analgesia and Meridian Channels, Information, 10.3390/info1020153, 1, 2, (153-168), (2010). Crossref

                  249. Peter T. Dorsher, Myofascial Meridians as Anatomical Evidence of Acupuncture Channels, Medical Acupuncture, 10.1089/acu.2009.0631, 21, 2, (91-97), (2009). Crossref

                  250. Kwang-Sup Soh, Bonghan Circulatory System as an Extension of Acupuncture Meridians, Journal of Acupuncture and Meridian Studies, 10.1016/S2005-2901(09)60041-8, 2, 2, (93-106), (2009). Crossref

                  251. Peter T. Dorsher, Myofascial Referred-Pain Data Provide Physiologic Evidence of Acupuncture Meridians, The Journal of Pain, 10.1016/j.jpain.2008.12.010, 10, 7, (723-731), (2009). Crossref

                  252. Charles Shang, Prospective Tests on Biological Models of Acupuncture, Evidence-Based Complementary and Alternative Medicine, 10.1093/ecam/nem122, 6, 1, (31-39), (2009). Crossref

                  253. Antonio Stecco, Veronica Macchi, Carla Stecco, Andrea Porzionato, Julie Ann Day, Vincent Delmas, Raffaele De Caro, Anatomical study of myofascial continuity in the anterior region of the upper limb, Journal of Bodywork and Movement Therapies, 10.1016/j.jbmt.2007.04.009, 13, 1, (53-62), (2009). Crossref

                  254. Sang-Hyun Park, Jungdae Kim, Tae-Hoi Koo, Magneto-Acupuncture Stimuli Effects on Ultraweak Photon Emission from Hands of Healthy Persons, Journal of Acupuncture and Meridian Studies, 10.1016/S2005-2901(09)60014-5, 2, 1, (40-48), (2009). Crossref

                  255. James L. Oschman, Charge transfer in the living matrix, Journal of Bodywork and Movement Therapies, 10.1016/j.jbmt.2008.06.005, 13, 3, (215-228), (2009). Crossref

                  256. Hsiao-Neng Chen, Jaung-Geng Lin, Li-Chih Ying, Chen-Chai Huang, Chuan-Hsiung Lin, The Therapeutic Depth of Abdominal Acupuncture Points Approaches the Safe Depth in Overweight and in Older Children, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2008.0582, 15, 9, (1033-1037), (2009). Crossref

                  257. Sallie Stoltz Denner, The Science of Energy Therapies and Contemplative Practice, Holistic Nursing Practice, 10.1097/HNP.0b013e3181bf3784, 23, 6, (315-334), (2009). Crossref

                  258. N. Ospina-Díaz, Introducción a la acupuntura. Fundamentos e interés para el médico de Atención Primaria, SEMERGEN - Medicina de Familia, 10.1016/S1138-3593(09)72675-9, 35, 8, (380-384), (2009). Crossref

                  259. Suzanne McDonough, Jongbae Park, Jing Yuan, Purepong Nithima, Daniel P. Kerr, Letters, Spine, 10.1097/BRS.0b013e31819d071c, 34, 7, (753), (2009). Crossref

                  260. Charles Shang, Has Basic Acupuncture Research Met the Gold Standard of Science?, Medical Acupuncture, 10.1089/acu.2009.715, 21, 3, (191-200), (2009). Crossref

                  261. Xiaohui Yan, Xinyi Zhang, Chenglin Liu, Ruishan Dang, Yuying Huang, Wei He, Guanghong Ding, Do acupuncture points exist?, Physics in Medicine and Biology, 10.1088/0031-9155/54/9/N01, 54, 9, (N143-N150), (2009). Crossref

                  262. Xiaojia Yu, Guanghong Ding, Hong Huang, Jun Lin, Wei Yao, Rui Zhan, Role of Collagen Fibers in Acupuncture Analgesia Therapy on Rats, Connective Tissue Research, 10.1080/03008200802471856, 50, 2, (110-120), (2009). Crossref

                  263. James J. Mao, Deborah W. Bruner, Carrie Stricker, John T. Farrar, Sharon X. Xie, Marjorie A. Bowman, Donna Pucci Xiaoyan Han, Angela DeMichele, Feasibility Trial of Electroacupuncture for Aromatase Inhibitor—Related Arthralgia in Breast Cancer Survivors, Integrative Cancer Therapies, 10.1177/1534735409332903, 8, 2, (123-129), (2009). Crossref

                  264. HongQin Yang, ShuSen Xie, Hui Li, YuHua Wang, On optics of human meridians, Science in China Series G: Physics, Mechanics and Astronomy, 10.1007/s11433-009-0080-7, 52, 4, (502-507), (2009). Crossref

                  265. Dietrich H.W. Groenemeyer, Lei Zhang, Sven Schirp, Jürgen Baier, Localization of Acupuncture Points BL25 and BL26 Using Computed Tomography, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2007.7118-O, 15, 12, (1285-1291), (2009). Crossref

                  266. Mike Benjamin, The fascia of the limbs and back – a review, Journal of Anatomy, 10.1111/j.1469-7580.2008.01011.x, 214, 1, (1-18), (2008). Wiley Online Library

                  267. Jesse Li-Ling, Yiyang Wu, Congenital Syndromes Involving the Lungs: Pathogenetic Models Based on Chinese Medicine Theories, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2008.0115, 14, 8, (1017-1025), (2008). Crossref

                  268. Byung-Cheon Lee, Tae-Jeong Nam, Hyeon-Min Johng, Eun-Sung Park, Ku-Youn Baik, Baeck-Kyoung Sung, Kyung-Soon Soh, Yeo-Sung Yoon, Kwang-Sup Soh, Argyrophilic Fibers of Intravascular Threadlike Structures in Rat, Journal of Korean Institute of Herbal Acupuncture, 10.3831/KPI.2008.11.3.005, 11, 3, (5-16), (2008). Crossref

                  269. Di Zhang, Guanghong Ding, Xueyong Shen, Wei Yao, Zhiying Zhang, Yuqing Zhang, Jun Lin, Quanbao Gu, Role of Mast Cells in Acupuncture Effect: A Pilot Study, EXPLORE, 10.1016/j.explore.2008.02.002, 4, 3, (170-177), (2008). Crossref

                  270. Stephen M. Sagar, Acupuncture as an Evidence-Based Option for Symptom Control in Cancer Patients, Current Treatment Options in Oncology, 10.1007/s11864-008-0063-3, 9, 2-3, (117-126), (2008). Crossref

                  271. M. Miguel-Pérez, J.C. Ortiz-Sagristà, A. Pérez-Bellmunt, R. Ramos-Izquierdo, A. García-Fernández, Descripción anatómica de puntos de acupuntura en la extremidad inferior, Revista Internacional de Acupuntura, 10.1016/S1887-8369(08)70031-0, 2, 2, (126-131), (2008). Crossref

                  272. Marcus Bäcker, Paul Grossman, Jens Schneider, Andreas Michalsen, Nicola Knoblauch, Linda Tan, Corinna Niggemeyer, Klaus Linde, Dieter Melchart, Gustav J. Dobos, Acupuncture in Migraine, The Clinical Journal of Pain, 10.1097/AJP.0b013e318159f95e, 24, 2, (106-115), (2008). Crossref

                  273. Peter T. Dorsher, Optimal Localization of Acupuncture Points: Implications for Acupuncture Practice, Education, and Research, Medical Acupuncture, 10.1089/acu.2008.0621, 20, 3, (147-150), (2008). Crossref

                  274. Byung-Cheon Lee, Vyacheslav Ogay, Ki Woo Kim, Yuwon Lee, Jin-Kyu Lee, Kwang-Sup Soh, Acupuncture Muscle Channel in the Subcutaneous Layer of Rat Skin, Journal of Acupuncture and Meridian Studies, 10.1016/S2005-2901(09)60002-9, 1, 1, (13-19), (2008). Crossref

                  275. Agatha P. Colbert, Jinkook Yun, Adrian Larsen, Tracy Edinger, William L. Gregory, Tran Thong, Skin Impedance Measurements for Acupuncture Research: Development of a Continuous Recording System, Evidence-Based Complementary and Alternative Medicine, 10.1093/ecam/nem060, 5, 4, (443-450), (2008). Crossref

                  276. Hugh MacPherson, Richard Nahin, Charlotte Paterson, Claire M. Cassidy, George T. Lewith, Richard Hammerschlag, Developments in Acupuncture Research: Big-Picture Perspectives from the Leading Edge, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2008.SAR-5, 14, 7, (883-887), (2008). Crossref

                  277. Vyacheslav Ogay, Min Su Kim, Hyo Jun Seok, Cheon Joo Choi, Kwang-Sup Soh, Catecholamine-storing Cells at Acupuncture Points of Rabbits, Journal of Acupuncture and Meridian Studies, 10.1016/S2005-2901(09)60027-3, 1, 2, (83-90), (2008). Crossref

                  278. J. Giebel, Mecanotransducción y transducción de señales a través del tejido conjuntivo, Revista Internacional de Acupuntura, 10.1016/S1887-8369(08)70003-6, 2, 1, (9-14), (2008). Crossref

                  279. Sheng-Hsiung Hsiao, Li-Jen Tsai, A Neurovascular Transmission Model for Acupuncture-induced Nitric Oxide, Journal of Acupuncture and Meridian Studies, 10.1016/S2005-2901(09)60006-6, 1, 1, (42-50), (2008). Crossref

                  280. Vitaly Napadow, Andrew Ahn, John Longhurst, Lixing Lao, Elisabet Stener-Victorin, Richard Harris, Helene M. Langevin, The Status and Future of Acupuncture Mechanism Research, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2008.SAR-3, 14, 7, (861-869), (2008). Crossref

                  281. Hong-Yi Li, Jie-Fu Yang, Min Chen, Liang Xu, Wen-Chao Wang, Fang Wang, Jia-Bin Tong, Chuan-Yu Wang, Visualized Regional Hypodermic Migration Channels of Interstitial Fluid in Human Beings: Are These Ancient Meridians?, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2007.0606, 14, 6, (621-628), (2008). Crossref

                  282. Rosa N. Schnyer, Stephen Birch, Hugh MacPherson, Acupuncture practice as the foundation for clinical evaluation, Acupuncture Research, 10.1016/B978-044310029-1.50013-9, (153-179), (2008). Crossref

                  283. Richard Hammerschlag, Hélène M. Langevin, Lixing Lao, George Lewith, Physiological dynamics of acupuncture: correlations and mechanisms, Acupuncture Research, 10.1016/B978-044310029-1.50014-0, (181-197), (2008). Crossref

                  284. Paul Orrock, Eric Blake, Leon Chaitow, Roger Newman Turner, Naturopathic Physical Medicine, Naturopathic Physical Medicine, 10.1016/B978-044310390-2.50009-2, (75-100), (2008). Crossref

                  285. Andrew C. Ahn, Agatha P. Colbert, Belinda J. Anderson, Ørjan G. Martinsen, Richard Hammerschlag, Steve Cina, Peter M. Wayne, Helene M. Langevin, Electrical properties of acupuncture points and meridians: A systematic review, Bioelectromagnetics, 10.1002/bem.20403, 29, 4, (245-256), (2008). Wiley Online Library

                  286. Margaret Julias, Lowell T Edgar, Helen M Buettner, David I Shreiber, An in vitro assay of collagen fiber alignment by acupuncture needle rotation, BioMedical Engineering OnLine, 10.1186/1475-925X-7-19, 7, 1, (2008). Crossref

                  287. Kell N. Julliard, Claudia Citkovitz, Douglas McDaniel, Towards a Model for Planning Clinical Research in Oriental Medicine, EXPLORE, 10.1016/j.explore.2006.12.002, 3, 2, (118-128), (2007). Crossref

                  288. Arya Nielsen, Nicola T.M. Knoblauch, Gustav J. Dobos, Andreas Michalsen, Ted J. Kaptchuk, The Effect of Gua Sha Treatment on the Microcirculation of Surface Tissue: A Pilot Study in Healthy Subjects, EXPLORE, 10.1016/j.explore.2007.06.001, 3, 5, (456-466), (2007). Crossref

                  289. Roy Moncayo, Ansgar Rudisch, Markus Diemling, Christian Kremser, In-vivo visualisation of the anatomical structures related to the acupuncture points Dai mai and Shen mai by MRI: A single-case pilot study, BMC Medical Imaging, 10.1186/1471-2342-7-4, 7, 1, (2007). Crossref

                  290. J. Giebel, Mechanotransduktion und Signaltransduktion über das Bindegewebe – Mechanismen zur Erklärung des therapeutischen Effekts der Akupunktur?, Deutsche Zeitschrift für Akupunktur, 10.1078/0415-6412-00281, 50, 3, (6-10), (2007). Crossref

                  291. Roy Moncayo, Ansgar Rudisch, Christian Kremser, Helga Moncayo, 3D-MRI rendering of the anatomical structures related to acupuncture points of the Dai mai, Yin qiao mai and Yang qiao mai meridians within the context of the WOMED concept of lateral tension: implications for musculoskeletal disease, BMC Musculoskeletal Disorders, 10.1186/1471-2474-8-33, 8, 1, (2007). Crossref

                  292. Helene M. Langevin, Nicole A. Bouffard, David L. Churchill, Gary J. Badger, Connective Tissue Fibroblast Response to Acupuncture: Dose-Dependent Effect of Bidirectional Needle Rotation, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2007.6351, 13, 3, (355-360), (2007). Crossref

                  293. Yong-Hui Han, Joon-Mo Yang, Min-Su Kim, Kwang-Sup Soh, Detection of the acupuncture points in Skin by differential path-length spectroscopy, World Congress on Medical Physics and Biomedical Engineering 2006, 10.1007/978-3-540-36841-0, (3572-3575), (2007). Crossref

                  294. Min-Su Kim, Vyacheslav Ogay, Yong-Hui Han, Hak-Soo Shin, Byung-Cheon Lee, Kwang-Sup Soh, Alcian Blue Staining Technique for Tracing the Governing Vessel (GV) Meridian in Rat, World Congress on Medical Physics and Biomedical Engineering 2006, 10.1007/978-3-540-36841-0, (3576-3579), (2007). Crossref

                  295. Miguel-Pérez Maribel, Ortiz-Sagristà Joan Carles, Pérez-Bellmunt Albert, Buxeda Mónica, Cuni Laura, García-Fernández Alicia, Descripción anatómica de puntos de acupuntura en la extremidad superior, Revista Internacional de Acupuntura, 10.1016/S1887-8369(07)70217-X, 1, 2, (53-57), (2007). Crossref

                  296. Yury P. Limansky, Serge A. Gulyar, Ivan Z. Samosyuk, Scientific basis of acupuncture, Kontakt, 10.32725/kont.2007.060, 9, 2, (391-402), (2007). Crossref

                  297. Leon Chaitow, Fascia 2007 Congress, Journal of Bodywork and Movement Therapies, 10.1016/j.jbmt.2006.07.004, 10, 4, (249-250), (2006). Crossref

                  298. Helene M. Langevin, Connective tissue: A body-wide signaling network?, Medical Hypotheses, 10.1016/j.mehy.2005.12.032, 66, 6, (1074-1077), (2006). Crossref

                  299. Albert Y. Leung, Jun Park, Gery Schulteis, Jeng-Ren Duann, Tony Yaksh, The Electrophysiology of De Qi Sensations , The Journal of Alternative and Complementary Medicine, 10.1089/acm.2006.12.743, 12, 8, (743-750), (2006). Crossref

                  300. Acupuncture, Obstetrics & Gynecology, 10.1097/01.AOG.0000239498.38595.41, 108, 4, (1024-1026), (2006). Crossref

                  301. Jeanne L. Shea, Applying Evidence-Based Medicine to Traditional Chinese Medicine: Debate and Strategy, The Journal of Alternative and Complementary Medicine, 10.1089/acm.2006.12.255, 12, 3, (255-263), (2006). Crossref

                  302. Grigory V. Chernyak, Daniel I. Sessler, Perioperative Acupuncture and Related Techniques, Anesthesiology, 10.1097/00000542-200505000-00024, 102, 5, (1031-1049), (2005). Crossref

                  303. Grigory Chernyak, Papiya Sengupta, Rainer Lenhardt, Edwin Liem, Anthony G. Doufas, Daniel I. Sessler, Ozan Ak??a, The Timing of Acupuncture Stimulation Does Not Influence Anesthetic Requirement, Anesthesia & Analgesia, 10.1213/01.ANE.0000142114.72117.E0, 100, 2, (387-392), (2005). Crossref

                  304. Gabriela E. Garcia, Sheng-Xing Ma, Lili Feng, Acupuncture and Kidney Disease, Advances in Chronic Kidney Disease, 10.1016/j.ackd.2005.04.002, 12, 3, (282-291), (2005). Crossref

                  305. Andrew C Ahn, Junru Wu, Gary J Badger, Richard Hammerschlag, Helene M Langevin, Electrical impedance along connective tissue planes associated with acupuncture meridians, BMC Complementary and Alternative Medicine, 10.1186/1472-6882-5-10, 5, 1, (2005). Crossref

                  306. E.E. Konofagou, H.M. Langevin, Using ultrasound to understand acupuncture, IEEE Engineering in Medicine and Biology Magazine, 10.1109/MEMB.2005.1411347, 24, 2, (41-46), (2005). Crossref

                  307. R. Schleip, W. Klingler, F. Lehmann-Horn, Active fascial contractility: Fascia may be able to contract in a smooth muscle-like manner and thereby influence musculoskeletal dynamics, Medical Hypotheses, 10.1016/j.mehy.2005.03.005, 65, 2, (273-277), (2005). Crossref

                  308. Paulo H. Hashimoto, The perineurial vessel: A possible candidate for the structural basis of the meridian (Jing‐Luo) in Chinese medicine*, Anatomical Science International, 10.1111/j.1447-073X.2005.00118.x, 80, 4, (177-180), (2005). Wiley Online Library

                  309. Dina Ralt, Intercellular communication, NO and the biology of Chinese medicine, Cell Communication and Signaling, 10.1186/1478-811X-3-8, 3, 1, (2005). Crossref

                  310. Ai-Hui Li, Jun-Ming Zhang, Yi-Kuan Xie, Human acupuncture points mapped in rats are associated with excitable muscle/skin–nerve complexes with enriched nerve endings, Brain Research, 10.1016/j.brainres.2004.04.009, 1012, 1-2, (154-159), (2004). Crossref

                  311. Kaung-Ti Yung, A Birdcage Model for the Chinese Meridian System Part II: The Meridian System as a Birdcage Resonator, The American Journal of Chinese Medicine, 10.1142/S0192415X04002582, 32, 06, (985-997), (2004). Crossref

                  312. J. P. Jones, Y. K. Bae, L. Wilson, C. S. So, D. D. Kidney, Ultrasonic Imaging and Characterization of Accupuncture Points in Classical Oriental Medicine, Acoustical Imaging, 10.1007/978-1-4020-2402-3_66, (527-533), (2004). Crossref

                  313. Helene M. Langevin, Elisa E. Konofagou, Gary J. Badger, David L. Churchill, James R. Fox, Jonathan Ophir, Brian S. Garra, Tissue displacements during acupuncture using ultrasound elastography techniques, Ultrasound in Medicine & Biology, 10.1016/j.ultrasmedbio.2004.07.010, 30, 9, (1173-1183), (2004). Crossref

                  314. M. Bäcker, I.K. Gareus, N.T.M. Knoblauch, A. Michalsen, G.J. Dobos, Akupunktur in der Schmerztherapie – Hypothese zu adaptiven Prozessen, Complementary Medicine Research, 10.1159/000082815, 11, 6, (335-345), (2004). Crossref

                  315. Opher Caspi, Cari Stellhorn, Melinda Connor, Sham in CAM, Evidence-Based Integrative Medicine, 10.2165/01197065-200401040-00002, 1, 4, (233-240), (2004). Crossref

                  316. Bruce D. Curtis, J.J. Hurtak, Consciousness and Quantum Information Processing: Uncovering the Foundation for a Medicine of Light, The Journal of Alternative and Complementary Medicine, 10.1089/107555304322848931, 10, 1, (27-39), (2004). Crossref

                  317. E.E. Konofagou, G.J. Badger, B.S. Garra, H.M. Langevin, IEEE Symposium on Ultrasonics, 2003, 10.1109/ULTSYM.2003.1293138, (1288-1291), (2003). Crossref

                  318. Leon Chaitow, Judith DeLany, Neuromuscular Techniques in Orthopedics, Techniques in Orthopaedics, 10.1097/00013611-200303000-00013, 18, 1, (74-86), (2003). Crossref

                  319. LiteratureWatch, Alternative and Complementary Therapies, 10.1089/10762800360520811, 9, 1, (49-50), (2003). Crossref

                  320. Michael McCarthy, Palpatory literacy, Chinese therapeutic bodywork (Tui Na) and the remediation of head, neck and shoulder pain, Journal of Bodywork and Movement Therapies, 10.1016/S1360-8592(03)00044-5, 7, 4, (262-277), (2003). Crossref

                  321. Leon Chaitow, What binds us together ?, Journal of Bodywork and Movement Therapies, 10.1016/S1360-8592(03)00020-2, 7, 2, (69-70), (2003). Crossref

                  322. Joshi, Narahari & Mbbs, Msc & Pa'ez, Ximena & Araque, MBBS. (2012). Electroacupuncture Effects on the Disintegration of Beta Amyloid Sheets: Its Application to Alzheimer's Disease. Medical Acupuncture. 24. 145. 10.1089/acu.2012.0873. ResearchGate

                    HRV, Ayurveda

                  323. Ram Manohar, P., Sorokin, O., Chacko, J., & Nampoothiri, V. (2018). An exploratory clinical study to determine the utility of heart rate variability analysis in the assessment of dosha imbalance. Journal of Ayurveda and integrative medicine, 9(2), 126–130. Crossref

                  324. Travis F.T., Wallace R.K. Doṣa brain-types: a neural model of individual differences. J Ayurveda Integr Med. 2015;6(4):280–285. PMC - PubMed

                  325. Tyagi A., Cohen M. Yoga and heart rate variability: a comprehensive review of the literature. Int J Yoga. 2016;9(2):97–113. PMC - PubMed

                  326. Masel E., Huber P., Engler T., Herbert Watzke H.H. Heart rate variability during treatment of breakthrough pain in patients with advanced cancer: a pilot study. J Pain Res. 2016 Dec;9:1215–1220. PMC - PubMed

                  327. Kim E.-H., Park J.-H., Lee S.M., Gwak M.-S., Kim G.-S., Kim M.-H. Preoperative depressed mood and perioperative heart rate variability in patients with hepatic cancer. J Clin Anesth. 2016 Dec;35:332–338. PubMed

                  328. Koszewicz M., Michalak S., Bilinska M., Budrewicz S., Zaborowski M., Slotwinski K. Profile of autonomic dysfunctions in patients with primary brain tumor and possible autoimmunity. Clin Neurol Neurosurg. 2016 Dec;151:51–54. PubMed

                  329. Rastogi, S., & Singh, R. H. (2021). Principle of Hot (Ushna) and Cold (Sheeta) and Its Clinical Application in Ayurvedic Medicine. Advances in experimental medicine and biology , 1343 , 39–55. Crossref

                  330. Mills, P. J., Peterson, C. T., Wilson, K. L., Pung, M. A., Patel, S., Weiss, L., Kshirsagar, S. G., Tanzi, R. E., & Chopra, D. (2019). Relationships among classifications of ayurvedic medicine diagnostics for imbalances and western measures of psychological states: An exploratory study. Journal of Ayurveda and integrative medicine , 10 (3), 198–202. Crossref

                  331. Pandey M.M., Rastogi S., Rawat A.K. Indian traditional ayurvedic system of medicine and nutritional supplementation. Evid Based Complement Alternat Med. 2013;2013:376327. - PMC - PubMed

                  332. Chopra A., Doiphode V.V. Ayurvedic medicine. Core concept, therapeutic principles, and current relevance. Med Clin North Am. 2002;86(1):75–89. vii. - PubMed

                  333. Zhou X., Ma Z., Zhang L., Zhou S., Wang J., Wang B. Heart rate variability in the prediction of survival in patients with cancer: a systematic review and meta-analysis. J Psychosom Res. 2016 Oct;89:20–25. - PubMed

                  334. Taffe L., Stancil K., Bond V., Pemminati S., Gorantla V.R., Kadur K. Differentiation of overweight from normal weight young adults by postprandial heart rate variability and systolic blood pressure. J Clin Diagnostic Res. 2016 Aug;10(8):CC01–CC06. - PMC - PubMed

                  335. Gupta J., Dube A., Singh V., Gupta R.C. Spectral analysis of heart rate variability in bronchial asthma patients. Indian J Physiol Pharmacol. 2012;56(4):330–336. - PubMed

                  336. Sorokin O.V., Subotyalov M.A. Material of the all-Russian scientific and practical conference with international presence, October 26–27, 2011 Kemerovo, Russia. 2011. Comparative medical research of VedaPulse hardware and software kit // Health maintaining activities in educational system: theory and practice; pp. 225–230.

                  337. Kelkar P., Karamchandani S., Jinda S. Proceedings of conference on advance applications in physiological variability, BARC. 2010. Identifying tridosha for disease characterisation in morphology of an IPG pulse waveform.

                    Singh Harupjit. Thapar University; Patiala: 2016. Relationship between three ayurvedic doshas and heart rate variability frequency bands: a pilot study.

                  338. Deshpande H., Shivakumar, Kavita M.B., Tripathy T.B., Chaturvedi A. Healthcare and disease management in Ayurveda. Altern Ther Health Med. 2001;7(2):44–50. - PubMed

                  339. Anthony J.V., Joanne M.G. Understanding interobserver agreement: the kappa statistic. Fam Med. 2005 May;37(5):360–363. - PubMed Telles S., Pathak S., Kumar A., Mishra P., Balkrishna A. Ayurvedic doshas as predictors of sleep quality. Med Sci Monit. 2015;21:1421–1427. - PMC - PubMed

                  340. Bell C., Heidel R.E., Sunega J., Drisko J. Ancient wisdom. Can ayurvedic prakruti provide invaluable insights into integrative medicine? Ayurveda J Health. 2017;27:27–34.

                  341. Cohen S., Kamarck T., Mermelstein R. A global measure of perceived stress. J Health Soc Behav. 1983;24(4):385–396. - PubMed

                  342. Travis F.T., Wallace R.K. Dosha brain-types: a neural model of individual differences. J Ayurveda Integr Med. 2015;6(4):280–285. - PMC - PubMed

                  343. Dey S, Pahwa P. Prakriti and its associations with metabolism, chronic diseases, and genotypes: possibilities of new born screening and a lifetime of personalized prevention. J Ayurveda Integr Med. 2014;5(1):15–24. - PMC - PubMed

                  344. Purvya M.C., Meena M.S. A review on role of prakriti in aging. Ayu. 2011;32(1):20–24. - PMC - PubMed

                  345. Pham, T., Lau, Z. J., Chen, S. H. A., & Makowski, D. (2021). Heart Rate Variability in Psychology: A Review of HRV Indices and an Analysis Tutorial. Sensors (Basel, Switzerland) , 21 (12), 3998. Crossref Lombardi F., Malliani A., Pagani M., Cerutti S. Heart Rate Variability and Its Sympatho-Vagal Modulation. Cardiovasc. Res. 1996;32:208–216. doi: 10.1016/0008-6363(96)00116-2. - DOI - PubMed

                  346. Mccraty R., Shaffer F. Heart Rate Variability: New Perspectives on Physiological Mechanisms, Assessment of Self-regulatory Capacity, and Health Risk. Glob. Adv. Heal. Med. 2015;4:46–61. doi: 10.7453/gahmj.2014.073. - DOI - PMC - PubMed

                  347. Thayer J.F., Yamamoto S.S., Brosschot J.F. The relationship of autonomic imbalance, heart rate variability and cardiovascular disease risk factors. Int. J. Cardiol. 2010;141:122–131. doi: 10.1016/j.ijcard.2009.09.543. - DOI - PubMed

                  348. Tiwari, R., Kumar, R., Malik, S., Raj, T., & Kumar, P. (2021). Analysis of Heart Rate Variability and Implication of Different Factors on Heart Rate Variability. Current cardiology reviews , 17 (5), e160721189770. Crossref

                  349. Roy, S., Goswami, D. P., & Sengupta, A. (2020). Geometry of the Poincaré plot can segregate the two arms of autonomic nervous system - A hypothesis. Medical hypotheses , 138 , 109574. Crossref

                  350. Gullett, N., Zajkowska, Z., Walsh, A., Harper, R., & Mondelli, V. (2023). Heart rate variability (HRV) as a way to understand associations between the autonomic nervous system (ANS) and affective states: A critical review of the literature. International journal of psychophysiology : official journal of the International Organization of Psychophysiology , 192 , 35–42. Crossref

                  351. Zou L., Sasaki J.E., Wei G.X., Huang T., Yeung A.S., Neto O.B., Chen K.W., Hui S.S. Effects of Mind-Body Exercises (Tai Chi/Yoga) on Heart Rate Variability Parameters and Perceived Stress: A Systematic Review with Meta-Analysis of Randomized Controlled Trials. J. Clin. Med. 2018;7:404. doi: 10.3390/jcm7110404. - DOI - PMC - PubMed

                  352. Danylova T.V., Shmarhun V.M., Vertel A.V., Matyushko B.K., Bondarenko A.F., Kychkyruk T., Petersen J. Effects of the eastern mind-body practices on mental health during the COVID-19 pandemic: When east meets west. Wiad. Lek. 2021;74:2850–2855. doi: 10.36740/WLek202111130. - DOI - PubMed

                  353. Feneberg A.C., Nater U.M. An Ecological Momentary Music Intervention for the Reduction of Acute Stress in Daily Life: A Mixed Methods Feasibility Study. Front. Psychol. 2022;13:927705. doi: 10.3389/fpsyg.2022.927705. - DOI - PMC - PubMed

                  354. Breit S., Kupferberg A., Rogler G., Hasler G. Vagus Nerve as Modulator of the Brain–Gut Axis in Psychiatric and Inflammatory Disorders. Front. Psychiatry. 2018;9:44. doi: 10.3389/fpsyt.2018.00044. - DOI - PMC - PubMed

                  355. Laborde S., Mosley E., Thayer J.F. Heart rate variability and cardiac vagal tone in psychophysiological research–recommendations for experiment planning, data analysis, and data reporting. Front. Psychol. 2017;8:213. doi: 10.3389/fpsyg.2017.00213. - DOI - PMC - PubMed

                  356. Chesky K.S., Michel D.E. The Music Vibration Table (MVT): Developing a Technology and Conceptual Model for Pain Relief. Music Ther. Perspect. 1991;9:32–38. doi: 10.1093/mtp/9.1.32. - DOI

                  357. Campbell E., Burger B., Ala-Ruona E. A Single-Case, Mixed Methods Study Exploring the Role of Music Listening in Vibroacoustic Treatment. Voices World Forum Music Ther. 2019;19:27. doi: 10.15845/voices.v19i2.2556. - DOI

                  358. Braun Janzen T., Al Shirawi M.I., Rotzinger S., Kennedy S.H., Bartel L. A Pilot Study Investigating the Effect of Music-Based Intervention on Depression and Anhedonia. Front. Psychol. 2019;10:1038. doi: 10.3389/fpsyg.2019.01038. - DOI - PMC - PubMed

                  359. Karkkainen M., Mitsui J. The Effects of Sound Based Vibration Treatment on the Human Mind and Body the Physioacoustic Method. J. Int. Soc. Life Inf. Sci. 2006;24:155–164. doi: 10.18936/islis.24.1_155. - DOI

                  360. Jirakittayakorn N., Wongsawat Y. Brain Responses to 40-Hz Binaural Beat and Effects on Emotion and Memory. Int. J. Psychophysiol. 2017;120:96–107. doi: 10.1016/j.ijpsycho.2017.07.010. - DOI - PubMed

                  361. Fooks C., Niebuhr O. Assessing Vibroacoustic Sound Massage Through The Biosignal of Human Speech: Evidence of Improved Wellbeing; Proceedings of the IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP); Seoul, Republic of Korea. 14–19 April 2024; pp. 11401–11405.

                  362. Gitler, A., Vanacker, L., De Couck, M., De Leeuw, I., & Gidron, Y. (2022). Neuromodulation Applied to Diseases: The Case of HRV Biofeedback. Journal of clinical medicine , 11 (19), 5927. Crossref

                  363. Zhu, J., Ji, L., & Liu, C. (2019). Heart rate variability monitoring for emotion and disorders of emotion. Physiological measurement , 40 (6), 064004. Crossref

                  364. Nunan, D., Sandercock, G. R., & Brodie, D. A. (2010). A quantitative systematic review of normal values for short-term heart rate variability in healthy adults. Pacing and clinical electrophysiology : PACE , 33 (11), 1407–1417. Crossref

                  365. Qu, X., Wu, Y., Liu, J., & Cui, L. (2020). HRV-Spark: Computing Heart Rate Variability Measures Using Apache Spark. Proceedings. IEEE International Conference on Bioinformatics and Biomedicine , 2020 , 10.1109/bibm49941.2020.9313361. Crossref

                  366. Rahul, L. R., Sarkar, R., Sengupta, A., Chandra, B. S., & Jana, S. (2023). Novel AI-based HRV analysis (NAIHA) in healthcare automation and related applications. Journal of electrocardiology , 79 , 112–121. Crossref

                  367. Taoum, A., Bisiaux, A., Tilquin, F., Le Guillou, Y., & Carrault, G. (2022). Validity of Ultra-Short-Term HRV Analysis Using PPG-A Preliminary Study. Sensors (Basel, Switzerland) , 22 (20), 7995. Crossref

                  368. Ortega, E., Bryan, C. Y. X., & Christine, N. S. C. (2024). The Pulse of Singapore: Short-Term HRV Norms. Applied psychophysiology and biofeedback , 49 (1), 55–61. Crossref

                  369. Vondrasek, J. D., Riemann, B. L., Grosicki, G. J., & Flatt, A. A. (2023). Validity and Efficacy of the Elite HRV Smartphone Application during Slow-Paced Breathing. Sensors (Basel, Switzerland) , 23 (23), 9496. Crossref

                  370. Malik M., Bigger J.T., Camm A.J., Kleiger R.E., Malliani A., Moss A.J., Schwartz P.J. Heart rate variability: Standards of measurement, physiological interpretation, and clinical use. Eur. Heart J. 1996;17:354–381. doi: 10.1093/oxfordjournals.eurheartj.a014868. - DOI - PubMed

                  371. Shaffer F., McCraty R., Zerr C.L. A healthy heart is not a metronome: An integrative review of the heart's anatomy and heart rate variability. Front. Psychol. 2014;5:1040. doi: 10.3389/fpsyg.2014.01040. - DOI - PMC - PubMed

                  372. Grosicki G.J., Culver M.N., McMillan N.K., Cross B.L., Montoye A.H.K., Riemann B.L., Flatt A.A. Self-recorded heart rate variability profiles are associated with health and lifestyle markers in young adults. Clin. Auton. Res. 2022;32:507–518. doi: 10.1007/s10286-022-00884-z. - DOI - PubMed

                  373. Natarajan A., Pantelopoulos A., Emir-Farinas H., Natarajan P. Heart rate variability with photoplethysmography in 8 million individuals: A cross-sectional study. Lancet Digit. Health. 2020;2:e650–e657. doi: 10.1016/S2589-7500(20)30246-6. - DOI - PubMed

                  374. Talbert, L. D., Kaelberer, Z., Gleave, E., Driggs, A., Driggs, A. S., Steffen, P. R., Baldwin, S. A., & Larson, M. J. (2023). A systematic review of heart rate variability (HRV) biofeedback treatment following traumatic brain injury (TBI). Brain injury , 37 (7), 635–642. Crossref

                  375. Jeyhani, V., Mahdiani, S., Peltokangas, M., & Vehkaoja, A. (2015). Comparison of HRV parameters derived from photoplethysmography and electrocardiography signals. Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference , 2015 , 5952–5955. Crossref

                  376. Brennan, M., Palaniswami, M., & Kamen, P. (2002). Poincaré plot interpretation using a physiological model of HRV based on a network of oscillators. American journal of physiology. Heart and circulatory physiology , 283 (5), H1873–H1886. Crossref

                  377. Ken Umetani MD A B C, Donald H Singer MD, FACC A B, Rollin McCraty MS C, Mike Atkinson C, Twenty-Four Hour Time Domain Heart Rate Variability and Heart Rate: Relations to Age and Gender Over Nine Decades. DOI , ScienceDirect

                    Sinn/kropp

                  378. Borghesi, F., Cremascoli, R., Chirico, A., Bianchi, L., Di Moia, A., Priano, L., Piedimonte, A., Mauro, A., & Cipresso, P. (2024). Mind and body connection in expert meditators: a computational study based on central and peripheral nervous system. BMC complementary medicine and therapies , 24 (1), 117. Crossref

                  379. Brandmeyer T, Delorme A, Wahbeh H. The neuroscience of meditation: classification, phenomenology, correlates, and mechanisms. Prog Brain Res. 2019;1(244):1–29. - PubMed

                  380. Travis F, Shear J. Focused attention, open monitoring and automatic self-transcending: categories to organize meditations from Vedic, Buddhist Chinese Traditions. Conscious Cogn. 2010;19(4):1110–1118. doi: 10.1016/j.concog.2010.01.007. - DOI - PubMed

                  381. Liberman N, Trope Y. The psychology of transcending the here and now. Science. 2008;322(5905):1201–5. doi: 10.1126/science.1161958. - DOI - PMC - PubMed

                  382. Ahani A, Wahbeh H, Nezamfar H, Miller M, Erdogmus D, Oken B. Quantitative change of EEG and respiration signals during mindfulness meditation. J Neuroeng Rehabil. 2014;11(1):1. doi: 10.1186/1743-0003-11-87. - DOI - PMC - PubMed

                  383. Ahani A, Wahbeh H, Miller M, Nezamfar H, Erdogmus D, Oken B. Change in physiological signals during mindfulness meditation. Int IEEE EMBS Conf Neural Eng. 2013;1378–81. - PMC - PubMed

                  384. Stapleton P, Dispenza J, McGill S, Sabot D, Peach M, Raynor D. Large effects of brief meditation intervention on EEG spectra in meditation novices. IBRO Rep. 2020;1(9):290–301. doi: 10.1016/j.ibror.2020.10.006. - DOI - PMC - PubMed

                  385. Travis F, Haaga DAF, Hagelin J, Tanner M, Nidich S, Gaylord-King C, et al. Effects of Transcendental Meditation practice on brain functioning and stress reactivity in college students. Int J Psychophysiol. 2009;71(2):170–176. doi: 10.1016/j.ijpsycho.2008.09.007. - DOI - PubMed

                  386. Phongsuphap S, Pongsupap Y, Chandanamattha P, Lursinsap C. Changes in heart rate variability during concentration meditation. Int J Cardiol. 2008;130(3):481–484. doi: 10.1016/j.ijcard.2007.06.103. - DOI - PubMed

                  387. Nesvold A, Fagerland MW, Davanger S, Ellingsen Ø, Solberg EE, Holen A, et al. Increased heart rate variability during nondirective meditation. Eur J Prev Cardiol. 2012;19(4):773–80. doi: 10.1177/1741826711414625. - DOI - PubMed

                  388. Léonard A, Clément S, Kuo CD, Manto M. Changes in heart rate variability during heartfulness meditation: a power spectral analysis including the residual spectrum. Front Cardiovasc Med. 2019;14(6):62. doi: 10.3389/fcvm.2019.00062. - DOI - PMC - PubMed

                  389. Pasquini HA, Tanaka GK, Basile LFH, Velasques B, Lozano MD, Ribeiro P. Electrophysiological correlates of long-term Soto Zen meditation. Biomed Res Int. 2015;2015:598496. doi: 10.1155/2015/598496. - DOI - PMC - PubMed

                  390. Cipresso P, Serino S, Borghesi F, Tartarisco G, Riva G, Pioggia G, et al. Continuous measurement of stress levels in naturalistic settings using heart rate variability: an experience-sampling study driving a machine learning approach. Acta IMEKO. 2021;10(4):239. doi: 10.21014/acta_imeko.v10i4.1183. - DOI

                  391. Berntson GG, Thomas Bigger J, Eckberg DL, Grossman P, Kaufmann PG, Malik M, et al. Heart rate variability: origins, methods, and interpretive caveats. Psychophysiology. 1997;34(6):623–648. doi: 10.1111/j.1469-8986.1997.tb02140.x. - DOI - PubMed

                  392. Acharya UR, Joseph KP, Kannathal N, Lim CM, Suri JS. Heart rate variability: a review. Med Biol Eng Comput. 2006;44(12):1031–1051. doi: 10.1007/s11517-006-0119-0. - DOI - PubMed Fell J, Axmacher N, Haupt S. From alpha to gamma: Electrophysiological correlates of meditation-related states of consciousness. Med Hypotheses. 2010;75(2):218–224. doi: 10.1016/j.mehy.2010.02.025. - DOI - PubMed

                  393. Rodriguez-Larios J, Faber P, Achermann P, Tei S, Alaerts K. From thoughtless awareness to effortful cognition: alpha - theta cross-frequency dynamics in experienced meditators during meditation, rest and arithmetic. Sci Rep. 2020;10(1):1–11. doi: 10.1038/s41598-020-62392-2. - DOI - PMC - PubMed

                  394. Cahn BR, Delorme A, Polich J. Occipital gamma activation during Vipassana meditation. Cogn Process. 2010;11(1):39–56. doi: 10.1007/s10339-009-0352-1. - DOI - PMC - PubMed

                  395. Borghesi F, Chirico A, Pedroli E, Cipriani GE, Canessa N, Amanzio M, et al. Exploring Biomarkers of mental flexibility in healthy aging: a computational psychometric study. Sensors (Basel) 2023;23(15):6983. doi: 10.3390/s23156983. - DOI - PMC - PubMed

                  396. Fang, S., & Zhang, W. (2024). Heart-Brain Axis: A Narrative Review of the Interaction between Depression and Arrhythmia. Biomedicines , 12 (8), 1719. Crossref

                  397. Gullett N., Zajkowska Z., Walsh A., Harper R., Mondelli V. Heart rate variability (HRV) as a way to understand associations between the autonomic nervous system (ANS) and affective states: A critical review of the literature. Int. J. Psychophysiol. 2023;192:35–42. doi: 10.1016/j.ijpsycho.2023.08.001. - DOI - PubMed

                  398. Bassett D. A literature review of heart rate variability in depressive and bipolar disorders. Aust. New Zealand J. Psychiatry. 2015;50:511–519. doi: 10.1177/0004867415622689. - DOI - PubMed

                  399. Zhu J., Ji L., Liu C. Heart rate variability monitoring for emotion and disorders of emotion. Physiol. Meas. 2019;40:064004. doi: 10.1088/1361-6579/ab1887. - DOI - PubMed

                  400. Chalmers J.A., Quintana D.S., Abbott M.J., Kemp A.H. Anxiety Disorders are Associated with Reduced Heart Rate Variability: A Meta-Analysis. Front. Psychiatry. 2014;5:80. doi: 10.3389/fpsyt.2014.00080. - DOI - PMC - PubMed

                  401. Chang H.A., Chang C.C., Chen C.L., Kuo T.B., Lu R.B., Huang S.Y. Major depression is associated with cardiac autonomic dysregulation. Acta Neuropsychiatr. 2012;24:318–327. doi: 10.1111/j.1601-5215.2011.00647.x. - DOI - PubMed

                  402. Burke J.H., Goldberger J.J., Ehlert F.A., Kruse J.T., Parker M.A., Kadish A.H. Gender differences in heart rate before and after autonomic blockade: Evidence against an intrinsic gender effect. Am. J. Med. 1996;100:537–543. doi: 10.1016/S0002-9343(96)00018-6. - DOI - PubMed

                  403. Kittnar O. Sex Related Differences in Electrocardiography. Physiol. Res. 2023;72:S127–S135. doi: 10.33549/physiolres.934952. - DOI - PMC - PubMed

                  404. Kotov R., Gamez W., Schmidt F., Watson D. Linking "big" personality traits to anxiety, depressive, and substance use disorders: A meta-analysis. Psychol. Bull. 2010;136:768–821. doi: 10.1037/a0020327. - DOI - PubMed

                  405. Godin P.J., Buchman T.G. Uncoupling of biological oscillators: A complementary hypothesis concerning the pathogenesis of multiple organ dysfunction syndrome. Crit. Care Med. 1996;24:1107–1116. doi: 10.1097/00003246-199607000-00008. - DOI - PubMed

                  406. Wang, L., Hao, J., & Zhou, T. H. (2023). ECG Multi-Emotion Recognition Based on Heart Rate Variability Signal Features Mining. Sensors (Basel, Switzerland) , 23 (20), 8636. Crossref

                  407. Cai Y., Li X., Li J. Emotion Recognition Using Different Sensors, Emotion Models, Methods and Datasets: A Comprehensive Review. Sensors. 2023;23:2455. doi: 10.3390/s23052455. - DOI - PMC - PubMed

                  408. Xiefeng, C., Wang, Y., Dai, S., Zhao, P., & Liu, Q. (2019). Heart sound signals can be used for emotion recognition. Scientific reports , 9 (1), 6486. Crossref

                  409. Hasnul, M. A., Ab Aziz, N. A., & Abd Aziz, A. (2023). Augmenting ECG Data with Multiple Filters for a Better Emotion Recognition System. Arabian journal for science and engineering , 1–22. Advance online publication. Crossref

                  410. Hasnul, M. A., Aziz, N. A. A., Alelyani, S., Mohana, M., & Aziz, A. A. (2021). Electrocardiogram-Based Emotion Recognition Systems and Their Applications in Healthcare-A Review. Sensors (Basel, Switzerland) , 21 (15), 5015. Crossref

                  411. Li, Y., Tan, R., Lin, T., Liu, Q., Wang, C. D., & Chen, M. (2024). ER-GET: Emotion Recognition Based on Global ECG Trajectory. IEEE journal of biomedical and health informatics , 28 (9), 5201–5213. Crossref

                  412. Woods, R. A., & Hill, P. B. (2022). Myers Brigg. In StatPearls . StatPearls Publishing. Pubmed

                  413. Wallick, M. M., & Cambre, K. M. (1999). Personality types in academic medicine. The Journal of the Louisiana State Medical Society : official organ of the Louisiana State Medical Society , 151 (7), 378–383. Pubmed

                  414. Tobacyk, J. J., Livingston, M. M., & Robbins, J. E. (2008). Relationships between Myers-Briggs type indicator measure of psychological type and neo measure of big five personality factors in Polish University students: a preliminary cross-cultural comparison. Psychological reports , 103 (2), 588–590. Crossref

                  415. Eicke, F. J., Blake, G., & Replogle, W. (1993). A comparative view of the Myers-Briggs type indicator. Family medicine , 25 (3), 186–190. Pubmed

                  416. Ranganathan VK, Siemionow V, Liu JZ, Sahgal V, Yue GH. From mental power to muscle power--gaining strength by using the mind. Neuropsychologia. 2004;42(7):944-56. doi: 10.1016/j.neuropsychologia.2003.11.018. PMID: 14998709. Pubmed

                    Electromagnetism

                  417. Blank, Martin; Goodman, Reba . (2011). DNA is a fractal antenna in electromagnetic fields. International Journal of Radiation Biology, 87(4), 409–415. Crossref

                  418. Montagnier L, Del Giudice E, Aïssa J, Lavallee C, Motschwiller S, Capolupo A, Polcari A, Romano P, Tedeschi A, Vitiello G. Transduction of DNA information through water and electromagnetic waves. Electromagn Biol Med. 2015;34(2):106-12. Crossref

                  419. Montagnier, L, J Aissa, E Del Giudice, C Lavallee, A Tedeschi, and G Vitiello. DNA Waves and Water. Journal of Physics: Conference Series 306 (2011): 012007. Crossref

                  420. Cantero, M.d.R., Villa Etchegoyen, C., Perez, P.L. et al. Bundles of Brain Microtubules Generate Electrical Oscillations. Sci Rep 8, 11899 (2018). Crossref

                  421. Gutierrez, B.C., Cantiello, H.F. & Cantero, M. The electrical properties of isolated microtubules. Sci Rep 13, 10165 (2023). Crossref Meijer, Dirk. (2018). Processes of Science and Art Modeled as a Holoflux of Information Using Toroidal Geometry. Open Journal of Philosophy. 8. 365-400. 10.4236/ojpp.2018.84026.

                  422. Kuman, Maria. (2018). Our Weak Nonlinear Electromagnetic Field (Nemf) that Rules Everything in the Body is Emotionally Sensitive. Journal of Complementary Medicine & Alternative Healthcare. 8. 10.19080/JCMAH.2018.08.555731.

                  423. Leonova-Gariaeva, & Gariaev, Peter & Friedman, Mark & Leonova-Gariaeva, Ekaterina. (2011). Principles of Linguistic-Wave Genetics. DNA Decipher Journal. 1. ResearchGate

                  424. GuangJun Zhang and Michael Levin (2025) Bioelectricity is a universal multifaced signaling cue in living organisms. 10.1091/mbc.E23-08-0312

                  425. Angelo Esposito, Rafael Krichevsky, and Alberto Nicolis (2019) Gravitational Mass Carried by Sound Waves Crossref

                    Audio frequencies biological effects

                  426. Kumeta, M., Otani, M., Toyoda, M. et al. Acoustic modulation of mechanosensitive genes and adipocyte differentiation. Commun Biol 8, 595 (2025). Crossref

                  427. Gustavs, L., Busch, P., Menzel, D. et al. Vibroacoustic stimulation for the treatment of chronic diseases: Mechanisms and future directions. Healthcare 9, 738 (2021). PubMed Central

                  428. Møller, H., Pedersen, C.S. Hearing at low and infrasonic frequencies. Rev. of Royal Society Open Science 2, 140166 (2015). Crossref

                  429. Landström, U., Lundström, R. et al. Low frequency noise affects mental performance. Int J Occup Med Environ Health 18(2), 261–266 (2005). PubMed

                  430. Garcia-Argibay, M., Santed, M.A., Reales, J.M. Efficacy of binaural auditory beats in cognition, anxiety, and pain perception: A meta-analysis. Psychol Res 83, 357–372 (2019). Source

                  431. Wahbeh, H., Elsas, S.M., Oken, B.S. Auditory low-frequency sound vibration effects on acute stress: A randomized controlled trial. Brain Sci 12(11), 1458 (2022). PubMed Central

                  432. Kantor J, Vilímek Z, Vítězník M, Smrčka P, Campbell EA, Bucharová M, Grohmannová J, Špinarová G, Janíčková K, Du J, Li J, Janátová M, Regec V, Krahulcová K, Kantorová L. Effect of low frequency sound vibration on acute stress response in university students-Pilot randomized controlled trial. Front Psychol. 2022 Oct 13;13:980756. Crossref

                  433. Nerve impulses can collide and continue unaffected. This supports the theory that nerves function as sound pulses. Niels Bohr Institute Link

                  Read more
                  27/05/24

                  Vanliga frågor

                   Vanliga frågor och svar Read the news

                  Follow @biocoherenceapp on X/Twitter, Instagram, FaceBook, YouTube, TikTok
                  Ansvarsfriskrivning BioCoherence tillhandahåller både en akademisk analys och en energetisk och experimentell analys. Informationen som visas kan eller kan inte vara korrelerad med de fysiska tillstånden hos systemen. Beräkningar baseras på individuella mätningar och experimentella algoritmer. Alla beräknade resultat som energinivåer, entropinivåer och koherenta system är utformade för att ge användbar information för personlig utveckling, inte för medicinska ändamål. Användningen av alla resultat är under användarens eget ansvar. Vid tveksamhet är det viktigt att konsultera en läkare. Vänligen kontrollera vår EULA innan du bestämmer dig för att använda programvaran.
                  O