Blood viscosity, cholesterol crystals, vascular elasticity, myocardial blood demand.
Proponents of the technology present a theoretical framework that attempts to explain its operation. The core premise is that the human body is a collection of cells, with about 25 million cells dividing per second in an adult. During this process, cells emit electromagnetic waves that represent different states: healthy, sub-healthy, or diseased. The analyzer claims to collect these weak magnetic fields through a handgrip sensor, amplify the signals, and compare them against a built-in database of standard quantum resonance spectra. Quantum Resonance Magnetic Analyzer Software 4.3.0
Software version 4.3.0 introduced several stability and usability updates over older editions. 1. Expanded Testing Reports During this process, cells emit electromagnetic waves that
Quantum resonance magnetic analysis is based on the principles of quantum mechanics, which describe the behavior of particles at the atomic and subatomic level. By applying these principles to the human body, researchers have developed a method to analyze the body's biofield, or the electromagnetic field that surrounds and permeates the body. This biofield is composed of various frequencies and patterns that reflect the body's physiological and pathological states. During this process