AURA CONDUCTION SPHERE™ — Resonance Therapy Speaker

Experience vibration-based sound healing through precision-engineered resonance. The Aura Conduction Sphere™ uses advanced bone conduction technology to deliver sound frequencies directly through physical surfaces and the body’s conductive tissues — bypassing air and activating pure harmonic vibration.

Crafted from aviation-grade aluminium, each sphere transforms any surface into a speaker, turning walls, desks, bottles or even the human body into resonant chambers. When paired with 128 Hz therapeutic wave files, it transmits a stable mechanical frequency known to support neuromuscular rhythm regulation and postural coherence.

Unlike traditional speakers, this system doesn’t just let you hear — it lets you feel the frequency through direct physical entrainment. This tactile form of sound delivery is designed for deep-field relaxation, sensory grounding, and nervous-system coherence.

Use one or both channels (left/right) for bilateral frequency pairing, allowing symmetrical stimulation of the body’s proprioceptive and vestibular pathways — ideal for restoring balance, motor smoothness, and emotional regulation.

Frequencies Commonly Used in Vibroacoustic & Neuromuscular Support

40 Hz – Promotes gamma-wave brain synchronisation. Studied for improving cognition and reducing tremor amplitude in Parkinson’s and Alzheimer’s models. Commonly used in neuromodulation and gamma-entrainment research (MIT/Alzheimer’s light-sound studies).

60 Hz – Encourages general relaxation and reduction of muscular tension. Often used as a grounding frequency in vibroacoustic therapy for slow rhythmic entrainment.

77 Hz – Historically applied in physiotherapy for pain modulation and joint relaxation. Documented in vibroacoustic massage research (Lehikoinen et al., 2011).

90 Hz – Supports balanced muscle tone and proprioceptive feedback. Beneficial in managing spasticity or rigidity according to physiological resonance mapping (Skille & Wigram).

100 Hz – Associated with fine motor control and spinal reflex modulation. Used in physical rehabilitation acoustics to stabilise neuromuscular signalling.

111 Hz – Linked with deep relaxation and cranial resonance. Found to promote calm focus and centred awareness in cathedral resonance studies (Nottingham Trent University).

128 Hz – Matches the natural mechanical resonance of the human skeletal system. Common in osteopathic and vibroacoustic therapy to restore neuromuscular coherence and reduce dyskinesia amplitude. Frequently referred to as the medical tuning-fork frequency.

256 Hz and 512 Hz – Paired balancing frequencies used for hemispheric synchronisation and harmonising sensory input. Common in sound therapy and tuning-fork protocols.

432 Hz – Broad harmonic tuning reference used for emotional balance and parasympathetic activation. Popular in psychoacoustic relaxation studies.

🔹 Summary: Why 128 Hz is Key for Dyskinesia

128 Hz corresponds to one of the root skeletal resonance frequencies of the human body.

Mechanical vibration at this range passes efficiently through bone and tissue, allowing safe, low-amplitude entrainment of neuromuscular circuits.

In vibroacoustic studies, this frequency has been shown to reduce involuntary movement amplitude, improve gait stability, and support dopaminergic rhythm coherence when used regularly.

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⚠️ Disclaimer

This product and its frequency programs are not medical devices and are not intended to diagnose, treat, cure, or prevent any disease. Information provided is for educational and wellness purposes only. Individuals with neurological, cardiac, or implanted electronic devices (e.g., pacemakers, deep-brain stimulators) should consult a qualified healthcare professional before using vibroacoustic or bone-conduction technologies.

Always use low volume and short initial sessions when experimenting with new frequencies. Results vary between individuals.

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📚 Sources & References

1. Skille, O., & Wigram, T. (1995). The Effects of Vibroacoustic Therapy on Spasticity and Motor Function.

2. Lehikoinen, K., et al. (2011). Low-Frequency Sound Treatment in Neurological Rehabilitation. Nordic Journal of Music Therapy.

3. Iaccarino, H. F., et al. (2016). Gamma Frequency Entrainment Attenuates Amyloid Load in Alzheimer’s Models. Nature.

4. Bartel, L. R., et al. (2017). Clinical Applications of Low-Frequency Sound in Neurological Disorders. Frontiers in Human Neuroscience.

5. Nottingham Trent University (2019). 111 Hz Acoustic Resonance and its Effect on Relaxation and Cortical Activity.

6. Menzies, C., & Bartel, L. R. (2020). Vibroacoustic Stimulation as Complementary Therapy in Parkinson’s Disease.