In physics, resonance describes how a system responds to external frequencies that match its own natural frequency. Each cell, organ, and system in the body has its own distinct vibrational pattern. When exposed to external frequencies, the body can either absorb energy beneficially or experience disruptions if the frequencies are not aligned.

This principle forms the basis of bioresonance, a method that utilizes energy frequencies to detect and correct imbalances in the body. When an organ or system is out of sync, it emits irregular energy signals, which can be identified and adjusted using biofeedback technology.

Recent developments in biophysics and integrative medicine have deepened scientific understanding of how frequency and resonance can influence human physiology. McMakin (2017), in The Resonance Effect: How Frequency Specific Microcurrent Is Changing Medicine, presents clinical evidence showing that low-level microcurrents applied at precise frequencies can reduce inflammation, relieve chronic pain, and accelerate tissue regeneration. Her findings demonstrate that biological systems respond not only to chemical inputs but also to subtle energetic stimuli capable of restoring coherence at the cellular level.

Building on this concept, Oschman (2000), in Energy Medicine: The Scientific Basis, provides a theoretical foundation for understanding the body as an interconnected bioelectromagnetic network. He describes how connective tissues and cellular membranes transmit electrical signals that coordinate healing processes, suggesting that health depends on maintaining optimal energetic communication within and between cells.

Together, these authors bridge the gap between traditional biomedicine and energy-based therapies, offering compelling evidence that resonance and bioelectric regulation are integral to human healing. Their work supports a paradigm shift toward a more comprehensive model of medicine that recognizes both biochemical and energetic dimensions of life.