The Science Behind Bioresonance

Innovative Approaches in BioResonance: Exploring the Power of Electromagnetic Energy in Healthcare.

In the late 1970s, Dr Fanz Morell, a German physician, pioneered a set of groundbreaking techniques now known as BioResonance. Unlike traditional methods, BioResonance is a safe and gentle non-invasive therapeutic approach based on the premise that all matter generates electromagnetic energy. In humans and animals, this energy continuously resonates from the body in varying wavelengths and frequencies, which can be detected, amplified, graphed, and analyzed.

Similar to electronic medical devices like EEG and ultrasounds, BioResonance employs the detection and recording of oscillating electromagnetic waves. For example, EEGs measure electrical activity in the brain using metal discs on the scalp. In BioResonance, non-invasive techniques are used to measure electromagnetic oscillations in different areas of the body to identify potential abnormalities and illnesses.

Healthy cells and organs emit harmonious wavelength oscillations falling between 10Hz and 150kHz. However, when disease is present, this harmony is disrupted, and disharmonious electromagnetic oscillations are emitted. BioResonance utilizes computer programs to quantify these pathological oscillations and compare them to unhealthy cells and organs’ pre-existing measurements.

Since its inception, BioResonance has gained global popularity, being used in various countries for disease diagnosis and promoting healing by restoring the body’s unique electromagnetic characteristics and frequencies. The technique’s non-invasive nature has made it especially appealing for aiding in diagnosis, particularly for children, as applicators can be placed outside light clothing rather than directly on the skin.

Not limited to diagnosis, BioResonance can also be used therapeutically. It involves applying electromagnetic energy externally to correct altered frequencies or energy fields linked with disease. By separating waves into harmonious and disharmonious groups, the technique can amplify the harmonious waves and safely reintroduce them to the body to enhance normal cell and organ function. On the other hand, it can “cancel out” the negative impact of disharmonious waves.

Studies examining the therapeutic impact of electromagnetic fields have shown promising results, especially in treating conditions like osteoarthritis and certain types of cancer. Low-level radiofrequency electromagnetic energy has been effective in treating chronic insomnia through biofeedback methods.

Despite the potential benefits, there is a lack of scientifically sound and rigorous clinical trials to explore the efficacy of BioResonance testing and treatment. Nevertheless, less rigorous studies have shown positive outcomes, particularly in asthma recovery rates and improvements in liver cell damage and recovery rates from injuries.

In conclusion, BioResonance represents an innovative and non-invasive approach that harnesses the power of electromagnetic energy in healthcare. While more comprehensive research is needed, early findings indicate its potential as a complementary assessment and treatment tool for various medical conditions.