REGARDING THE MECHANISMS OF ACTION OF ALIPHATIC HYDROCARBONS ON THE ANIMAL REPREDUCTIVE SYSTEM
Creators
- 1. Senior Lecturer, Master of Biology Kazakh Agrotechnical University named after S. Seifullin Kazakhstan, Nur-Sultan
- 2. PhD, Senior Lecturer Kazakh Agrotechnical University named after S. Seifullin RSE on the REM "Astana Botanical Garden" Committee of Forestry and Animal World of the Ministry of Ecology, Geography and Nature Conservation, Kazakhstan, Nur-Sultan
- 3. master of Natural Sciences Kazakh Agrotechnical University named after S. Seifullin Nur-Sultan, Kazakhstan
Description
Abstract
Medical and biological studies are currently of particular relevance to the impact of various man-made pollutants, such as aliphatic hydrocarbons on the human body. Aliphatic hydrocarbons are the most frequently encountered hydrocarbons known to humans. Therefore, poisoning by these products is often caused by solvents. Inhalation addiction to adhesives is also related to an addictive state formed by the action of organic solvents on the CNS. Literature review on the nature of hexane's effects on the body indicates that although there is a large range of data on the effects of hexane on the body, it has not been sufficiently investigated. There is much data on the effects of hexane on the nervous system. Hexane is also known to affect lung tissue. Toxicants can cause adverse effects at any stage of the function. The adverse effects of toxicants (and their metabolites) on male and female reproductive organs may be due to either disruption of the mechanisms of physiological regulation of their functions or to direct cytotoxic effects Both laboratory and epidemiological studies have found that many xenobiotics have a fairly high potential for reproductive toxicity. Sensitivity to a particular teratogen varies considerably among representatives of different species, subspecies and even individuals of the same species. It follows that the significance is not so much the mechanism of action of the toxicant as the fact that the cellular elements are damaged at a certain stage of development of the organism, initiating a largely identical sequence of events leading to deformities.
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References
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