Pharmacodynamics is the study of how medications work and how successful they are. We look at how medication compounds interact with biological structures. Pharmaceuticals have two forms of action: structurally specific and non-specific. The quantum analysis we present with the Similarity Principle (SP) allows for a theoretically and practically relevant deep clarification of interaction processes between pharmaceutical drugs and biological structures (at the level of elementary particles).
The goal of this study is to develop a single universal mechanism for explaining pharmacological action at the micro-level, where there is no distinction between animate and inanimate nature, and to investigate phytotherapeutic effects on diseased cells in order to discover a universal answer to the problems posed here.Methods: To study these challenges, we introduce quantum analysis as a scientific method. Nuclei and particles are examples of quantum things. The occupation of precisely defined values is referred to as "quantification." Quantum is the smallest possible change in any quantity (physical or of another kind). The quality of energy radiated or absorbed by the minuscule particles of matter during the smallest conceivable change of its state also identifies the quantum. This analysis is inextricably linked to the similarity principle.
Medicinal compounds must bind to the biological structure that is functionally damaged. This happens because of the so-called affinity, according to current pharmacology. Because of the gravitational force of attraction, cells with the biologically active substance (mx mass) of the medicinal substance approach and interact with functionally impaired cells of the biological structure (Mx mass). The exchange of functional and sovereign quanta of life takes place at the particle level. As a result, a healing process takes place.
Conclusion: The novel view on cell division, autophagy, and apoptosis may pave the way for a viable antiviral and anticancer defensive system for biological structures.
Author(s) Details
V. L. Kaniskov
Sofia University “St. Kliment Ohridski”, Sofia, Bulgaria.
K. Krastev
Vasil Levski National Military University, Veliko Tarnovo, Bulgaria.
View Book :- https://stm.bookpi.org/HMMR-V7/article/view/1052
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