For several decades, certain approaches have explored the use of specific frequencies and very low-intensity microcurrents to support the body’s natural processes.
These approaches are part of a holistic vision of well-being, at the intersection of biophysics and clinical observation.
Weavy® draws inspiration from this work to offer a personal, simple, and accessible tool, designed to support everyday well-being.
FSM, or Frequency Specific Microcurrent, refers to an approach that combines:
microcurrents, meaning very low-intensity electrical currents, similar to those naturally present in the body,
with specific frequencies, selected for their resonance with certain tissues or biological functions.
Unlike the higher currents used in other technologies such as TENS, microcurrents are generally not perceptible or feel very gentle.
The goal is not to stimulate intensely, but to support the body’s natural mechanisms.
FSM is primarily used in professional settings, where frequencies are carefully selected according to specific protocols.
The term Bioresonance is a generic term that covers several different concepts.
In general, it refers to the idea that the body—made up of cells, tissues, and interconnected systems—responds to physical signals, particularly electrical and electromagnetic ones.
In a broad sense, bioresonance explores how:
cells communicate with one another,
certain signals may influence biological balance,
the body responds to information of an electrical or frequency-based nature.
A zapper is a device that uses low-intensity electrical currents, historically associated with fixed or sweeping frequencies.
Some people take an interest in zappers as part of a well-being approach, notably following the work of Dr. Hulda Clark or Royal Raymond Rife.
Within these approaches, the zapper has been described as a tool that could act through a destructive effect on certain microorganisms or pathogens, by applying electrical or frequency-based signals.
It is important to note that these concepts do not constitute recognized medical treatments.
The human body functions largely through electrical signals:
nerve transmission, membrane potentials, ionic exchanges, cellular communication, and more.
These phenomena are well documented in biology and physiology.
In this context, the use of microcurrents and frequencies has been the subject of numerous scientific publications, clinical observations, and ongoing research across various fields.
It is important to clarify that:
these approaches do not replace medical care,
they do not constitute medical treatments unless supervised by a qualified physician.
