I will list a number of examples of structural age-related changes: – replacement of noble cellular elements with connective tissue (according to I. I. Mechnikov); – additional age-dependent collagen deposits around most cells in compactly organized tissues and in the basement membranes of organs; – connective tissue cords in tissues, which are the remnants of remnants of small blood vessels, without endothelial cells and without SMC media of vessels; – deposition of lipofuscin and tau protein inside neurons; – deposition of beta-amyloid in the intercellular space; – pathological slowly metabolized fatty deposits on the organs of the chest and abdominal cavities; – «sliding» of fatty deposits in the lower part of the facial part of the skull under the influence of gravity; deposits of kidney stones and gallbladder; deposition of arteriosclerotic plaques on the walls of blood vessels.
Cells of actively functioning tissues can maintain homeostasis, including due to the surrounding connective tissues, dumping metabolic waste and excess metabolites into them (for example, lactate from cells living on glycolysis). The formation of blood clots in the capillaries of the circulatory system is also a possible result of such local discharge. Structural changes can be accompanied by the loss of components, a striking example of which is osteoporosis, accompanied by the loss of the mineral component of bone tissue, mainly due to its rare use.
Thus, senile changes, which we judge about aging, are manifested primarily at the level of structural (morphological and anatomical) changes: – changes in the skeleton; changes in the connective tissue basis of organs; – an increase in the number of elements of extracellular connective tissue and its subsequent ossification. Ultimately, all slowly metabolized waste of cell life first enters the extracellular fluid and then into the blood before being excreted in the urine.
Structural pathological changes in cells, tissues and organs act as secondary pathogenic factors, entailing malfunctions of functional elements.
The second category of free energy expenditures includes the costs of operating security systems and overcoming metabolic chaos in the form of diseases, which I wrote about above. The more energy is spent on the operation of security systems and on overcoming metabolic chaos, the less it remains for vital functions and the lower the average life expectancy. One of the results of metabolic chaos, manifested in the form of inflammation that accompanies many diseases, is an increase in body temperature, indicating a decrease in the efficiency of bioenergetic mechanisms.
Spending funds (energy) on conditioning the environment, that is, removing from habitat pathogenic microorganisms, toxic substances and reducing the levels of negative physical (radiation) and mental influences, humanity thereby provides the economy of free energy by organisms, which they spend on combating various pathogenic factors and metabolic chaos, thereby reducing the rate of pathological aging and increasing life expectancy.
The sharp increase in the average life expectancy in the twentieth century was provided by the work of infectious disease specialists, hygienists, parasitologists and epidemiologists, who defeated most of the infections. In the second half of the twentieth century, ecologists, clinical epidemiologists, toxicologists and technologists did it, overcoming the negative consequences of the first technical revolutions associated with chemical and physical pollution of the environment.