How enzymes Work
Biodynamics and Cellular Health
This document summarizes the main ideas presented through an analogy between computer systems and the human body, focusing on the role of enzymes and cellular health.
Source: www.citozeatecsrl.ch
Enzymes as Workers: Just like computer programs enable various functions, enzymes are crucial for bodily processes. They create “metabolites” – the energy components for cells, comparable to “files” storing the results of program processing.
Cellular Specificity: Healthy cells have specialized functions within their respective organs. Like a well-organized computer system, efficient information flow relies on this order.
Cellular Damage and Entropy: Disease disrupts this order. When cells are damaged (e.g., in tumors), they lose their specificity and begin interacting with different cell types, creating “tropism” and increasing “entropy” (disorder).
Biodynamics as a Solution: “Biodynamics” is presented as a technology mimicking the body’s natural processes to produce ready-made cellular components (“processed by enzymes”). This approach aims to provide struggling cells with readily available energy, repairing damage and restoring normal function.
Key Quotes:
“Enzymes in the human body are waiting to facilitate chemical reactions processing substrates to produce the components that are going to feed our cells.”
“A healthy cell is limited to a rather restricted [set] of functions that regulate its metabolism…relations with neighboring cells are limited to its specificity… each cell plays a certain and precise role.”
“[A damaged cell] loses its specificity and begins to dialogue with cells of different types… it is a cell that creates tropism and therefore entropy level.”
“Imagine a reactor that can simulate the human body…able to generate ready-made components in an industrial way…able to provide the right energy to repair cellular damage and restore regular cellular functions.”
Conclusion:
The document uses a simplified analogy to explain complex biological processes, emphasizing the importance of enzyme activity and cellular order for overall health. It introduces “biodynamics” as a potential technological solution to support cellular repair and restore equilibrium using enzyme-processed components. Further research is needed to understand the scientific validity and potential applications of this technology.