Difference between revisions of "Antidote"

  

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(List of antidotes)
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| acetylcysteine || acetaminophen || Should be given within 8 hr of acetaminophen ingestion for maximum benefit; however effective even after 24 hours of ingestion.
 
| acetylcysteine || acetaminophen || Should be given within 8 hr of acetaminophen ingestion for maximum benefit; however effective even after 24 hours of ingestion.
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| atropine || cholinesterase inhibitors (organophosphates, carbamates) || IV: 0.03-0.05 mg/kg IV/IM/IO/ET q10-20min PRN to effect; then q1-4hr for at least 24 hours.<br />IM: 2 mg for mild reaction, quickly repeat with up to another 4 mg for initial dose if more severe reaction.
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| edetate calcium disodium
 
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==See also==
 
==See also==

Revision as of 09:26, 6 June 2012

Antidote, derived from the Greek antidoton where anti is a prefix that means against and doton means given. Therefore we can think of an antidote as being working against what has already been given. A more contemporary definition would be a remedy or other agent used to neutralize or counteract the effects of a poison or other deleterious agent.

There is a popular misconception that there is an antidote for every poison, whereas there are actually relatively few classes of toxins that have antidotes. The antidotes for some particular toxins are manufactured by injecting the toxin into an animal in small doses and extracting the resulting antibodies from the host animals' blood. This results in an antivenom that can be used to counteract poison produced by certain species of snakes, spiders, and other venomous animals. A number of venoms lack a viable antivenom, and a bite or sting from an animal producing such a toxin may result in death. Some animal venoms, especially those produced by arthropods (e.g. certain spiders, scorpions, bees, etc.) are only potentially lethal when they provoke allergic reactions and induce anaphylactic shock; as such, there is no "antidote" for these venoms because it is not a form of poisoning and anaphylactic shock can be treated (e.g., by the use of epinephrine).

Some other toxins have no known antidote. For example, the poison aconitine, a highly poisonous alkaloid derived from various aconite species has no antidote, and as a result is often fatal if it enters the human body in sufficient quantities.

Mechanical approaches

Ingested poisons are frequently treated by the oral administration of activated charcoal, which adsorbs the poison and flushes it from the digestive tract, thereby removing a large part of the toxin. Poisons which are injected into the body (such as those from bites or stings from venomous animals) are usually treated by the use of a constriction band which limits the flow of lymph and/or blood to the area, thus slowing circulation of the poison around the body. This should not be confused with use of a tourniquet which cuts off blood flow completely - often leading to the loss of the limb.

List of antidotes

In the table below some of the more common antidotes have been listed.

Antidote Poison(s) Additional Comments
acetylcysteine acetaminophen Should be given within 8 hr of acetaminophen ingestion for maximum benefit; however effective even after 24 hours of ingestion.
atropine cholinesterase inhibitors (organophosphates, carbamates) IV: 0.03-0.05 mg/kg IV/IM/IO/ET q10-20min PRN to effect; then q1-4hr for at least 24 hours.
IM: 2 mg for mild reaction, quickly repeat with up to another 4 mg for initial dose if more severe reaction.
edetate calcium disodium

See also

High-alert medications

References

  1. The Free Dictionary, antidotes, http://www.thefreedictionary.com/antidotes
  2. Wikipedia, Antidotes, http://en.wikipedia.org/wiki/Antidotes
  3. Medscape, acetylcysteine (Antidote), http://reference.medscape.com/drug/acetadote-n-acetylcysteine-antidote-acetylcysteine-antidote-343740