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Common Drug Antidotes in Pharmacology
Common Drug Antidotes in Pharmacology: This refers to substances used to counteract the effects of toxic drugs or poisons in the body. Antidotes work by neutralizing or reversing the harmful effects of the drug or toxin
What Are Antidotes?
Antidotes are substances used to counteract the harmful effects of poisons or toxins. The key difference between a medicine and a poison lies in the dosage.
The term “antidote” originates from the Greek word antidoton, meaning “a remedy given against a disease.”
Some antidotes have broad applications and can treat multiple types of poisoning. A prime example is activated charcoal, which can help reverse the effects of many oral toxins. However, it works best when administered shortly after exposure to the poison, as its effectiveness decreases the longer the delay between poisoning and treatment, due to more toxin being absorbed by the body.
On the other hand, some antidotes are highly specific, designed to treat only a particular type of poisoning. For instance, law enforcement officers in the UK are advised to carry naloxone (a nasal spray form) to address opioid overdoses, such as those involving heroin.
Here’s a comprehensive list of the most frequently used antidotes in clinical practice. Memorizing these will be useful for your upcoming clinical pharmacy exams!
Common Drug Antidotes
| Antidote | Indications |
| Activated charcoal | Many types of poisoning |
| Atropine | Organophosphate poisoning |
| Beta blocker | Theophylline poisoning |
| Calcium chloride | Calcium channel blocker poisoning |
| EDTA | Heavy metal poisoning |
| Cyproheptadine | Serotonin syndrome |
| Deferoxamine | Iron poisoning |
| Flumazenil | Benzodiazepine poisoning |
| Glucagon | Beta blocker poisoning |
| Oxygen | Carbon monoxide poisoning |
| Idarucizumab | Dabigatran poisoning |
| Leucovorin | Methotrexate poisoning |
| Naloxone | Opioid poisoning |
| N-acetylcysteine | Paracetamol (acetaminophen) poisoning |
| Octreotide | Oral hypoglycemic agent poisoning |
| Protamine sulfate | Heparin poisoning |
| Prussian blue | Thallium poisoning |
| Physostigmine | Anticholinergic poisoning |
| Phytomenadione | Warfarin poisoning |
| Pyridoxine | Isoniazid poisoning |
| Sodium bicarbonate | Aspirin poisoning |
| Dimercaptosuccinic acid | Lead, mercury, arsenic poisoning |
| Intralipid | Local anesthetic toxicity |
| Pralidoxime chloride | Organophosphate poisoning |
Case Study – Acetaminophen Overdose
Acetaminophen overdose is a leading cause of drug poisoning, resulting in 400 deaths annually in the United States due to acute liver failure.
The treatment approach for acetaminophen poisoning depends on how much time has passed since the overdose. Symptoms typically include nausea, vomiting, abdominal pain, weakness, jaundice, loss of appetite, diarrhea, and convulsions. In severe cases, patients may fall into a coma.
If the patient seeks help soon after the overdose, activated charcoal may be administered. It adsorbs the poison, preventing it from being absorbed into the body. Supportive care, including intravenous fluids and antiemetic medications, may also be given.
However, if a significant amount of time has passed, activated charcoal becomes less effective. In these cases, N-acetylcysteine (NAC) is used. NAC replenishes glutathione levels, which are critical in detoxifying the liver by neutralizing the toxic metabolite NAPQI (N-acetyl-p-benzoquinone imine).
When an acetaminophen overdose occurs, glutathione levels are depleted, impairing the liver’s ability to process toxins. By replenishing glutathione, NAC helps neutralize NAPQI and prevents further damage. NAC may even be administered early on in cases where patients show severe symptoms.
In extreme cases, liver failure may occur, and a liver transplant could be the only viable treatment option.
That’s a quick overview of antidotes in pharmacology! For more insights into pharmaceutical topics, stay tuned for future blog posts!