Diokine
Member
- Joined
- Mar 2, 2016
- Messages
- 624
I've been noticing lately how body odor and skin health plays into my well being, and I took some time to look into the things that effect them. A short article with some information about steroids.
Steroid solubility: connection with skin and body odor
Steroid solubility plays a major role in skin health
Whole body energy generation and cohesion is required for environments that support steroids.
Steroids as potent modifiers of local and temporal charge distribution.
Biological signals as differing frequencies of electrical field oscillation, nerves.
Steroids are found everywhere in biology, and they play an essential role in maintaining the electrical environment of an organism. This electrical environment, at different levels, is the driving force behind further development. Different types of electrical environments are required for the evolution of various metabolic processes, and they can be thought of patterns or tones in the charge distribution of the various tissues. Many of these patterns and signals are generated in the brain, and it is the function of the nerves and tissues to ensure the patterns are transmitted appropriately. The electrical properties of lipids and water is one of the most fundamental and fascinating aspects of life, and the steroids are some of the most potent modifiers of these properties. Steroids have varying degrees of solubility in tissues, depending on the energetic state of those tissues. Metabolism is a very complex set of timings and patterns, and steroids require high degree of adaptability and compliance in the local electrical environment to support them.
Steroids are found especially in the skin, where they are continually being modified and oxidized. The apocrine glands collect these steroids to further process them, eventually secreting them to continually nourish the skin. In this sense the apocrine system can be thought of as a steroid recycling and transport system, as these oxidized steroids can be very problematic if not handled correctly. When the metabolic environment of the tissues shifts towards one that does not encourage proper steroid solubility, a host of reactions can be observed.
The proper environment for steroids requires a cell that follows a cyclic change in its oxidized/reduced state. The proper timing of the different metabolic pathways, resulting in the proper ratios of energetic substrate. When this timing is disrupted, the ratios change and this effects the rate of polymerization of various oxy-dehydro enzymes, and steroids already present will be exposed to oxidation and degradation towards lower molecular weight compounds. This will alter their composition and their influence on specific biogenic signals. These oxidized steroids can initiate an inflammatory process, potentially leading to a positive feedback loop of impaired metabolism. The oxidized steroids are collected in the skin, and they are a major promoter of the inflammatory process, leading to acne and other skin conditions. They will also promote body odor, as the compounds are more easily assimilated by microbes in the skin which further degrade them into noxious compounds.
Taking care to support proper metabolism will increase synthesis and solubility of these steroids.
Steroid solubility: connection with skin and body odor
Steroid solubility plays a major role in skin health
Whole body energy generation and cohesion is required for environments that support steroids.
Steroids as potent modifiers of local and temporal charge distribution.
Biological signals as differing frequencies of electrical field oscillation, nerves.
Steroids are found everywhere in biology, and they play an essential role in maintaining the electrical environment of an organism. This electrical environment, at different levels, is the driving force behind further development. Different types of electrical environments are required for the evolution of various metabolic processes, and they can be thought of patterns or tones in the charge distribution of the various tissues. Many of these patterns and signals are generated in the brain, and it is the function of the nerves and tissues to ensure the patterns are transmitted appropriately. The electrical properties of lipids and water is one of the most fundamental and fascinating aspects of life, and the steroids are some of the most potent modifiers of these properties. Steroids have varying degrees of solubility in tissues, depending on the energetic state of those tissues. Metabolism is a very complex set of timings and patterns, and steroids require high degree of adaptability and compliance in the local electrical environment to support them.
Steroids are found especially in the skin, where they are continually being modified and oxidized. The apocrine glands collect these steroids to further process them, eventually secreting them to continually nourish the skin. In this sense the apocrine system can be thought of as a steroid recycling and transport system, as these oxidized steroids can be very problematic if not handled correctly. When the metabolic environment of the tissues shifts towards one that does not encourage proper steroid solubility, a host of reactions can be observed.
The proper environment for steroids requires a cell that follows a cyclic change in its oxidized/reduced state. The proper timing of the different metabolic pathways, resulting in the proper ratios of energetic substrate. When this timing is disrupted, the ratios change and this effects the rate of polymerization of various oxy-dehydro enzymes, and steroids already present will be exposed to oxidation and degradation towards lower molecular weight compounds. This will alter their composition and their influence on specific biogenic signals. These oxidized steroids can initiate an inflammatory process, potentially leading to a positive feedback loop of impaired metabolism. The oxidized steroids are collected in the skin, and they are a major promoter of the inflammatory process, leading to acne and other skin conditions. They will also promote body odor, as the compounds are more easily assimilated by microbes in the skin which further degrade them into noxious compounds.
Taking care to support proper metabolism will increase synthesis and solubility of these steroids.