The study of the dynamics of liquid, soft and hard tissues of the human body by physical contact for several minutes with vascular catheters, gastric, intestinal and pleural probes, tablets, and aqueous solutions of drugs subject to certain physical-chemical factors of local interaction. It is shown that the interaction with these medical devices, the condition of the skin, subcutaneous fat, teeth enamel, established dental structures and mucous membranes of the oral cavity, esophagus, stomach, eyes, as well as the state of the venous blood inside the vessels within the vascular catheters and other devices for storing and injecting blood and infusion solutions, is largely determined by the preservation of the natural values of the physicalchemical characteristics of these tissues. It is established that medical devices, differing in their temperature, gas composition, osmotic and/or the acid activity of the relevant characteristics of body parts in contact with them, change their condition: the stronger, the greater the difference in their physical-chemical activity and the longer continuous interaction. In this regard, an assumption that the purposeful change of physical-chemical characteristics of the standard ("old") materials (in other words, the known substances) that underlie the production of products in solid and liquid state, allows us to get "new" structures and materials. It is shown that purposeful giving old materials new "old" materials with new physical and chemical properties and their use for the production of tablets and solutions from the "old" and well-known medicines can turn even very "old" medicines in very "young" (moreover, even very fashionable), and new drugs with unprecedented (even fantastic) pharmacological activity and with new mechanisms of action.
The antiseptic hydrogen peroxide is widely used in the treatment of various septic wounds and abrasions and injuries at home. In addition, in recent years there have been reports on the possibility of using hydrogen peroxide as an antihypoxant.Analysis of the results showed that unique formulations of hydrogen peroxide solutions and antihypoxic technologies of their use for pharmacological and cold support of organ and tissue function under hypoxic conditions without the use of gaseous oxygen were developed.The innovative technology is based on the local cooling of a selected area of the body while injecting a hydrogen peroxide solution of the "right" formulation.A hydrogen peroxide solution of the "right" formulation has been shown to be an alternative to arterial blood for oxygen-deficient tissues because hydrogen peroxide increases the oxygen content of tissues, including venous blood, which it converts to arterial blood because it forms oxyhemoglobin.
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