The stable and unstable function of Bioenergy, in the immunological and neuronal environment of cancer, viral infection and bacteria

Abstract

There has been long established that biophysical & biochemical reactions in the cellular communication of neuronal messaging. Specific Quantum Photonics Energy have been shown to stimulates these Biophysical/Biochemical Reactions. Systems Biology model representing regulation.Biophotonics therapy uses the harnessing and application of light for immune stimulation and antibacterial and antiviral properties.Biophysical Neural Networks examines the interface between systems theory and experiment at a multi‐hierarchical level of neural organization.The Immune stimulation matrix may be understood as a interplay of the milieu of the biochemical and physical parameters that ultimately move the organism to health and homeostasis, or to disease. The GP Einstein model of Coherence – Congruence can be used to understand the parameters and relations that have been obtained from previous independent experiments using specific quantum photonic energy conducted at Einstein Medical Institute. The experiments have included published applications of treatment of HIV/HVC therapy.This stability model can them be used to predict immunological phenomenon as a summation towards regulation or not and can further the impetus to design corresponding experiments.Support or Funding InformationSupported by Institutional Resources of USAT, UHH, and EMIThis abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.