Biophysica (Sep 2024)
From Endogenous Quasi-Pathogens to Endogenous Smart Medicine: Understanding the Cellular Mechanisms and Implications of Benign and Malignant Cell Dynamics
Abstract
This study investigates the formation and impact of Endogenous Quasi-Pathogens (EQPs) within cellular environments, focusing on the role of Endogenous Smart Medicine (ESM) as a therapeutic intervention. This work elucidates how induced vibrations facilitate new molecular and atomic connections between adjacent cells, leading to endobiotic bond formation and significantly altered DNA behavior. These vibrations, which dominate cellular processes, induce both temporary and permanent changes in cellular dynamics. The resulting increase in extracellular impedance triggers the emergence of new EQP sources, potentially initiating divergent pathological cycles. Cells experiencing moderate impedance changes are classified as benign, while those with substantial alterations are considered malignant. This study highlights the medical diagnostic implications of EQPs and positions ESM as a precise method for modulating cellular impedance, reducing the effects of EQPs, and potentially treating diseases where disruptions in cellular dynamics and stiffness are critical. Additionally, the integration of ChronoBit Storage (CBS) within ESM introduces a novel energy management mechanism, enhancing therapeutic precision by synchronizing energy distribution with cellular needs. The ChronoVital Index (CVI), a temporal model for assessing time dynamics across biological systems from individual cells to whole organs further refines this approach. By advancing the CVI and CBS, this research paves the way for more sophisticated therapeutic strategies, offering promising applications in the fields of disease management and cellular restoration within the framework of Endogenous Smart Medicine.
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