Bioresonance: Between Molecular Physics and Vibrational Therapy

Introduction

Since the dawn of time, humanity has intuitively perceived the therapeutic power of sound vibrations.
Today, the bioresonance emerges as a fascinating bridge between quantum physics, molecular biology and vibrational therapies.

This article explores the scientific foundations of this discipline, examines the history of the research that underpins it, and presents the innovative approach developed by NATURASOUNDS : there sound molecular chemistry .

1. PHYSICAL FOUNDATIONS: EVERYTHING IS VIBRATION

1.1 The Vibrational Nature of Matter

Fundamental quantum principle At the subatomic scale, all matter is made up of particles in perpetual motion. Atoms vibrate, molecules oscillate, electrons orbit. This constant agitation generates characteristic frequencies .

Einstein-Planck equation :

 E = hν = mc² 

Or :

• E = energy (Joules)
• h = Planck's constant (6.626 × 10⁻³⁴ J·s)
• ν = frequency (Hz)
• m = mass (kg)
• c = speed of light (299,792,458 m/s)

This fundamental equation establishes the equivalence of mass, energy, and frequency. : each particle of matter possesses an intrinsic vibrational frequency, directly related to its mass.

1.2 Molecular Spectroscopy: Experimental Evidence

There vibrational spectroscopy (infrared, Raman) has demonstrated for over a century that each molecule possesses characteristic vibration modes :

Example: The water molecule (H₂O)

• Flexion mode (ν₂): 1595 cm⁻¹ (47.8 THz)
• Symmetrical elongation mode (ν₁): 3657 cm⁻¹ (109.6 THz)
• Antisymmetric elongation mode (ν₃): 3756 cm⁻¹ (112.6 THz)

These frequencies, precisely measured in the laboratory and referenced in international databases (NIST Chemistry Webbook), constitute the unique vibrational signature of each molecule.

Major implication If each molecule vibrates at specific frequencies, and if the human body is composed of billions of molecules (water, proteins, lipids, DNA...), then The entire human body is an orchestra of frequencies .

example of spectroscopy

2. HISTORY OF BIORESONANCE RESEARCH

2.1 The Pioneers (1920-1950)

Georges Lakhovsky (1869-1942): The Multiple Wavelength Oscillator

Georges Lakhovsky, a Russian researcher who became a naturalized French citizen, discovered that cells could communicate with each other using waves. Around 1930, he invented the Multiple Wavelength Oscillator (OLOM) , capable of simultaneously emitting different wavelengths.

Lakhovsky's Theory Living cells have resonator systems that are capable of capturing and emitting information. A living organism is in constant interaction with its environment.

Hospital validation The Salpêtrière Hospital and the Pasteur Institute tested his device. Several photos and documents attest to the effectiveness of his process.

Unfortunately, in 1942, Lakhovsky died after being hit by a car. His machines disappeared from hospitals shortly after his death.

Royal Raymond Rife (1888-1971): Frequencies and Microorganisms

The inventor Royal Rife conducted research on the impact of frequencies on microorganisms and organs. He hypothesized that certain vibrations could disintegrate pathogens.

Rife develops a revolutionary optical microscope and establishes a frequency catalog supposedly corresponding to various pathogens. Although his work remains scientifically controversial, it has inspired generations of bioresonance researchers.

2.2 Russian Works (1950-1990)

Soviet Space Research

Bioresonance has been used by Russian scientists to monitor Russian astronauts during their space missions. In the 1960s and 70s, studies were conducted to understand the effects of electromagnetic resonances on the human body and to find ways to optimize the health and performance of astronauts.

Key discoveries :

• Russian scientists have realized that electromagnetic resonance can be used to stimulate and balance biological processes, thereby improving stress resistance, recovery, and promoting optimal bodily function.

Soviet Scientific Schools

The Russian biologist A. Gourvitch, the Russian academician N. Devyatkov, and the inventors S. and V. Kirlian established that every form of life has its own spectrum of electromagnetic vibrations, creating a bio-electromagnetic field that performs protective and energetic functions.

Russian physician Dr. A. Bessonov and Russian Professor E. Kalmykova demonstrated that cells exchange information regarding frequency and amplitude, and that healthy cells in living organisms emit the same signal. Each element possesses its own resonant frequency or frequencies.

2.3 Modern Developments (1990-2020)

Fritz-Albert Popp and Biophotons

Biophysicist Fritz-Albert Popp discovered that our cells emit ultra-weak light called biophotons. These light emissions could be influenced by electromagnetic fields and sound vibrations, suggesting that our bodies react directly to frequencies.

Implications Cells communicate not only chemically (hormones, neurotransmitters) but also by electromagnetic signals And photonics .

Morell and Rasche: Modern Bioresonance

The Germans Morell and Rasche developed the first devices in the 1970s and 1980s therapeutic bioresonance capable of analyzing and modulating biological frequencies.

3. PHYSIOLOGICAL BASIS: HOW THE BODY REACTS TO VIBRATIONS

3.1 Vibrational Reception Channels

A. Mechanotransduction

Human cells possess receiver mechanics capable of detecting mechanical vibrations:

• Pacini corpuscles Detects vibrations from 40-800 Hz (deep skin)
• Meissner corpuscles Sensitive to 10-200 Hz (superficial skin)
• Merkel discs Continuous pressure and low-frequency vibrations

Therapeutic implications Tuning forks and sound vibrations directly stimulate these receptors, transmitting information to the nervous system.

B. Stochastic Resonance

A phenomenon demonstrated in neuroscience: a weak signal (like a low-frequency vibration) can be amplified by the natural noise of the biological system, improving signal detection and transmission.

Application Molecular frequencies, even when transposed to low sound intensities, can have measurable effects via this mechanism.

C. Changes in Tissue Conductivity

Sound vibrations temporarily alter:

• There electrical conductivity fabrics
• There membrane permeability
• THE blood flow (reflex vasodilation)
• There viscosity interstitial fluids

3.2 Documented Biological Effects of Vibrations

Clinical Studies on Therapeutic Vibrations

Vibrating platform (Whole Body Vibration - WBV) :

• Frequencies 20-60 Hz
• Proven effects: ↑ Bone density, ↑ Muscle strength, ↑ Balance (positive meta-analyses)
• Mechanism: Osteoblast stimulation, neuromuscular activation

Therapeutic ultrasound :

• Frequencies 1-3 MHz
• Effects: Accelerated healing, reduced inflammation, thermal effect
• Widely used in physiotherapy (solid scientific validation)

Local vibration stimulation :

• Vibrational massage 30-100 Hz
• Effects: Muscle relaxation, reduced pain, increased circulation

Implications If mechanical vibrations have proven biological effects, it is plausible that specific frequencies (calculated from biological molecules) can have targeted effects.

4. THE NATURASOUNDS APPROACH: SOUND-BASED MOLECULAR CHEMISTRY

4.1 Foundational Principle

NATURASOUNDS has developed an innovative approach since 2019:
starting from precise molecular mass of biologically active substances, apply the Einstein-Planck equation , and transpose octavially the frequencies obtained towards the audible/infrasonic range.

Methodology :

1. Identification of the target molecule (e.g., Vitamin C, Serotonin, Melatonin...)
2. Obtaining the precise molecular mass (NIST and PubChem databases)
3. Calculation of intrinsic frequency via Einstein-Planck
4. Octavian transposition (division by 2ⁿ) to audible frequencies (20-20,000 Hz)
5. Tuning fork manufacturing tuned precisely to these frequencies
6. Empirical validation via therapeutic protocols

4.2 Examples of Calculated Molecules

4.3 Validation of the Approach

Mathematical Coherence

All NATURASOUDS frequencies are calculated rigorously based on established physicochemical data. These are not "intuitive" frequencies but rather... mathematical transpositions of actual molecular signatures.

Observation: Twin Frequencies

Vitamin C (65.63 Hz) and Serotonin (65.66 Hz) :

• Nearly identical masses: 176.124 vs 176.215 g/mol
• Frequency difference: 0.03 Hz (virtually indistinguishable)
• Meaning Two molecules essential to well-being vibrate almost in unison, suggesting a harmonic resonance natural.

Correlation with Musical Traditions

Melatonin (86.55 Hz) → Note Fa2 (87.31 Hz)

• Very close to the letter Fa, traditionally associated with calm and introspection.
• Harmonic at 173.10 Hz (F3), 346.20 Hz (F4)
• Symbolic coherence: Fa = night, sleep, withdrawal

Serotonin and Vitamin C (65.6 Hz) → Note Do2 (65.41 Hz)

• Almost a perfect C, the root note of the scale
• Symbolism: Stability, anchoring, foundation
• Coherence: The basis of well-being (serotonin) and cellular health (vitamin C)

4.4 Differentiation from Classical Electromagnetic Bioresonance

Classical Bioresonance (Mora, SCIO, LIFE System devices):

• Broadcast of electromagnetic fields
• Measurement of "energy imbalances"
• Correction by inverse electromagnetic waves
  

NATURASOUDS (Vibrational Sound Therapy) :

• Broadcast of mechanical vibrations (tuning forks, sound frequencies)
• Based on physicochemical calculations (Einstein-Planck)
• Application non-invasive of acoustic frequencies
• No diagnostic claim, approach of complementary well-being

Fundamental distinction NATURASOUNDS does not claim to "measure imbalances" or "correct pathological frequencies".
The approach consists of exposing the organism to transposed molecular frequencies , on the hypothesis that they could create a sympathetic resonance with the corresponding endogenous molecules.

5. HYPOTHETIC MECHANISMS OF ACTION

5.1 Sympathetic Resonance

Physical principle : When two oscillating systems have similar frequencies, one can cause the other to vibrate without direct contact.

Classic example Two identical tuning forks. If one vibrates, the other will begin to vibrate spontaneously. resonance .

NATURASOUNDS Hypothesis :

• Application of a frequency (e.g., Serotonin 65.66 Hz)
• → Resonance with endogenous serotonin molecules
• → Possible modulation of their activity, synthesis, or receptivity

Scientific status : we have proven with several frequencies via dark-field microscopy that these bioresonance frequencies do interact with biology.

5.2 Effect on Body Water Structure

The human body is made up of 70% water . Recent studies suggest that sound frequencies can alter the structure of water.

Aquaphotonic studies Scientific studies using near-infrared spectroscopy have demonstrated that sound frequencies (432 Hz and 440 Hz) alter the molecular structure of water, increasing strongly bound ice-like water and decreasing small water aggregates.

Involvement If bodily water is sensitive to sound frequencies, and if this water surrounds all biological molecules, then the vibrations could modulate indirectly the molecular environment and influence biochemical reactions.

5.3 Stimulation of the Autonomic Nervous System

Low frequencies (20-100 Hz) are known to influence the nervous system:

• Brain waves : Delta (0.5-4 Hz), Theta (4-8 Hz), Alpha (8-13 Hz), Beta (13-30 Hz)
• Training External frequencies can synchronize brain activity

Binaural beats : Difference between two close frequencies creating a "beat" perceived by the brain.

• Example: 65.63 Hz (Vit C) + 65.66 Hz (Serotonin) = Heart rate 0.03 Hz (infra-delta)
• Could induce a state of deep relaxation

5.4 Placebo Effect and Positive Expectations

Scientific transparency Part of the observed effects may be due to the placebo effect , which is powerful in itself.

NATURASOUNDS Position :

• Even if part of the effect is placebo, it is still beneficial.
• The placebo effect + real vibrational mechanisms = synergy
• The approach is complementary , not a substitute for conventional medicine

6. FUTURE PROSPECTS AND RESEARCH

6.1 Scientific Validation Protocols

Necessary studies :

1. Double-blind pilot studies :
   • Tuning fork 107.40 Hz (H₂O) vs placebo tuning fork (random frequency)
   • Objective measurements: Skin hydration, bioimpedance, blood markers
2. Physiological measurements :
   • Heart rate variability (HRV)
   • Electroencephalography (EEG): Brain waves
   • Functional imaging (fMRI): Brain activation
3. Studies on specific populations :
   • Anxiety: GABA 76.85 Hz vs placebo
   • Insomnia: Melatonin 86.55 Hz vs placebo
   • Mild depression: Serotonin 65.66 Hz vs placebo

6.2 Biophysical Validation

in vitro experiments :

• Cell cultures exposed to specific frequencies
• Measurement of enzyme activity and protein synthesis
• Spectroscopy to verify molecular resonance

Animal models :

• Rats exposed to frequencies (serotonin, melatonin)
• Measuring behaviors (anxiety, sleep)
• Biochemical assays (neurotransmitters, hormones)

6.3 Integration with Other Approaches

Potential Synergies :

• Light therapy + Frequencies (Serotonin + Light)
• Nutrition + Frequencies (Tryptophan + Serotonin 65,66 Hz)
• Meditation + Frequencies (Meditative states + Alpha beats)
• Physiotherapy + Frequencies (Muscle Recovery + Vit D3 71.66 Hz)

7. CONCLUSION

There sound therapy bioresonance developed by NATURASOUNDS is part of a historical continuum research on vibration-living interactions, from the pioneers Lakhovsky and Rife to Russian space work, via modern discoveries on biophotons.

Key Strengths of the Approach

✅ Mathematical rigor Calculations based on the Einstein-Planck equation and established physicochemical data (NIST)
✅ Non-invasive No chemical input, no side effects
✅ Physical coherence The molecules actually vibrate at measurable frequencies ✅ Documented vibrational effects Vibrations have proven biological effects (WBV, ultrasound)
✅ Complementary approach : Respects conventional medicine

NATURASOUNDS Vision

"Each molecule possesses a real and measurable vibrational signature. Our hypothesis is that transposing these frequencies into the sound domain can create a beneficial resonance with the organism. We invite the scientific community to test, validate, or refute this approach in a spirit of openness and rigor."

There bioresonance does not claim to replace medicine.
She proposes a exploration interfaces between physics, biology and consciousness.
Whether the effects are mediated by direct molecular resonance, by modulation of body water, by stimulation of the nervous system, or by an amplified placebo effect, The subjective experience of well-being reported by users deserves attention .

Science advances by bold assumptions And rigorous validation . NATURASOUNDS has formulated the hypothesis.
It is now up to the scientific community to put it to the test.

REFERENCES

Physicochemical Bases

1. NIST Chemistry Webbook: Molecular Masses and Vibrational Frequencies
2. Einstein-Planck: E = hν = mc² (mass-energy-frequency equivalence)
3. IR/Raman Spectroscopy: Vibrational Signatures of Molecules

Bioresonance History

4. Lakhovsky G.: The Secret of Life (1939), Multiple Wavelength Oscillator
5. Rife RR: Research on frequencies and microorganisms (1930s-1940s)
6. Soviet space research: Bioresonance for astronauts (1960s-1970s)
7. Popp FA.: Biophotons and Cell Communication (1970s-2000s)

Documented Vibration Effects

8. Whole Body Vibration (WBV): Meta-analyses of effects on bones, muscles, and balance
9. Therapeutic ultrasound: Applications in physiotherapy (solid validation)
10. Aquaphotonic studies: Modifications to water structure by sound frequencies

NATURASOUNDS Works

11. Renaud Ruhlmann: Molecular Sound Chemistry (2019-2026)
12. Molecular frequency calculations: H₂O, H₃O₂⁻, vitamins, neurotransmitters
13. Development of precisely tuned therapeutic tuning forks

Article written by Renaud Ruhlmann | January 2026
For any scientific questions or research collaborations: [ renaud@naturasounds.org ]

Disclaimer The information in this article is presented for educational purposes. NATURASOUNDS vibrational sound therapy is a complementary wellness approach and is not a substitute for medical diagnosis or treatment. Always consult a qualified healthcare professional with any medical questions.