Toxication: Difference between revisions
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File:CYP3A4.png|CYP3A4 enzyme involved in drug metabolism | |||
File:Methanol_conversion.png|Methanol conversion to formaldehyde | |||
File:Ethylene_glycol_toxication.png|Ethylene glycol toxication | |||
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Latest revision as of 01:57, 18 February 2025
The process of being poisoned by a toxic substance
Toxication is the process by which a chemical compound becomes more toxic after undergoing metabolic transformation. This process is also known as metabolic activation. Toxication is a critical concept in toxicology and pharmacology, as it helps to understand how certain substances can become harmful to the body.
Mechanism[edit]
Toxication occurs when a non-toxic or less toxic substance is metabolized by the body into a more toxic form. This transformation is often mediated by enzymes, particularly those in the cytochrome P450 family. One of the most important enzymes involved in toxication is CYP3A4, which is responsible for the metabolism of many drugs and endogenous compounds.
Examples[edit]
Methanol[edit]
Methanol is a type of alcohol that is not highly toxic in its original form. However, when ingested, it is metabolized by the enzyme alcohol dehydrogenase into formaldehyde, which is then further oxidized to formic acid. Both formaldehyde and formic acid are highly toxic, leading to metabolic acidosis, visual disturbances, and potentially death.
Ethylene Glycol[edit]
Ethylene glycol, commonly found in antifreeze, is another example of a substance that becomes more toxic after metabolism. It is metabolized by alcohol dehydrogenase to glycolaldehyde, which is further metabolized to glycolic acid, glyoxylic acid, and finally oxalic acid. These metabolites can cause severe metabolic acidosis and renal failure.
Prevention and Treatment[edit]
Preventing toxication involves avoiding exposure to the parent compound or inhibiting the metabolic pathway that leads to the formation of toxic metabolites. For example, fomepizole and ethanol are used as antidotes for methanol and ethylene glycol poisoning because they inhibit alcohol dehydrogenase, preventing the formation of toxic metabolites.
Related pages[edit]
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CYP3A4 enzyme involved in drug metabolism
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Methanol conversion to formaldehyde
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Ethylene glycol toxication
