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The most important characteristic of an organism is its ability to adapt and self-regulate. Everyone must adjust to numerous local environmental changes instantaneously. Outside influences such as high power electrical line, microwaves, computers, cell phones and even the electrical wires in our homes emit harmful electromagnetic fields. These dangerous influences can disrupt an already complex communication system within the human body. In order to maintain balance, our internal organs, tissues, and subsystems require extremely precise communication to coordinate close to 500 trillion chemical reactions per second; one cell alone carried out 7,000 chemical reactions per second.
Bioinformatics is the science that investigates selective internal communication within living tissue by using diverse, discrete spectral bands of electromagnetic communications. This field of study builds a foundation that promotes efficient adaptation and self-regulation at the cellular level through Bioresonance Therapy (BRT). By aiding proper communication, the body can respond to the detrimental stimuli of the surrounding environments while helping itself to heal when it cannot maintain its own molecular activity due to these influences. The vast possibilities of balancing organisms through BRT and the positive impact it has on the individual has only begun to be understood in the past 25 years.
Bioresonance therapy (BRT) is based on the principle of using biofeedback Electromagnetic (EM) signals of the treated organism, or one of its elements, in the healing process. With the use of instruments such as the photomultiplier and various high resolution spectrum analyzers, the electromagnetic nature of this direct signaling system began to be investigated in the 1970s. The results of these studies described direct, rapid, and very efficient EM signals as fundamental communication throughout the body. This complexity of communication is required to coordinate the 7,000 chemical reactions per second in each cell. Previously explored pathways such as the neurological and hormonal systems are not capable of conducting this high level of interaction.
Bioinformatics is the science that investigates selective internal communication within living tissue by using diverse, discrete spectral bands of electromagnetic communications. This field of study builds a foundation that promotes efficient adaptation and self-regulation at the cellular level through Bioresonance Therapy (BRT). By aiding proper communication, the body can respond to the detrimental stimuli of the surrounding environments while helping itself to heal when it cannot maintain its own molecular activity due to these influences. The vast possibilities of balancing organisms through BRT and the positive impact it has on the individual has only begun to be understood in the past 25 years.
Bioresonance therapy (BRT) is based on the principle of using biofeedback Electromagnetic (EM) signals of the treated organism, or one of its elements, in the healing process. With the use of instruments such as the photomultiplier and various high resolution spectrum analyzers, the electromagnetic nature of this direct signaling system began to be investigated in the 1970s. The results of these studies described direct, rapid, and very efficient EM signals as fundamental communication throughout the body. This complexity of communication is required to coordinate the 7,000 chemical reactions per second in each cell. Previously explored pathways such as the neurological and hormonal systems are not capable of conducting this high level of interaction.
