Electricity in the Body

Yet another amazing property of fascial connective tissues, is there ability to generate electricity from movement, touch, pressure and other stimuli.

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"When fascial tissue is subjected to mechanical forces, such as pressure, stretching, or movement, the collagen fibres within the fascia can become compressed, twisted, or distorted. This mechanical deformation leads to a separation of positive and negative charges within the collagen molecules, generating electric potentials or voltages along the fibres.

Significance of Fascial Piezoelectricity:

The piezoelectric properties of fascia are believed to play a role in various physiological processes and functions:

1. Mechanosensation: Piezoelectricity in fascia may contribute to the body’s ability to sense and respond to mechanical stimuli. It could help transmit signals related to touch, pressure, and movement.

2. Tissue Repair and Remodelling: Electric potentials generated in fascia through piezoelectricity might influence cellular processes involved in tissue repair, regeneration, and remodelling.

3. Pain Perception: Fascial piezoelectricity could have implications for pain perception and the transmission of pain signals. Changes in electrical potentials within the fascia might influence pain sensation.

4. Biomechanics: The generation of electric potentials in response to mechanical forces might contribute to the overall biomechanical properties of fascia and its role in maintaining structural integrity."

-https://stuartseminars.com/education/piezoelectricity-in-fascia/

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