The body is not only chemical in nature.
It is also electrical.
Cells communicate through a combination of biochemical signalling and subtle electrical activity, including processes involving membrane potentials, ion exchange, and nervous-system communication.
At a broader level, the nervous system itself functions through electrochemical transmission, continuously coordinating responses throughout the body.
Within this context, research in areas such as bioelectromagnetics and neuromodulation continues to explore how low-intensity electromagnetic fields may interact with biological systems.
Current research has investigated possible influences on:
cellular signalling
neural activity
inflammatory processes
tissue support and repair
These interactions are considered subtle and are highly dependent on factors such as frequency, intensity, duration, and individual response.
Research in this field remains ongoing, and many mechanisms are still being explored.
Within this practice, micro-frequency approaches are used carefully and conservatively as part of a broader body-aware process centred around pacing, regulation, and nervous-system support.
→ Read more: What Are Micro-Frequencies?