5-HT3 antagonist Totally Explained

Everything about 5-ht3 Antagonist totally explained

The 5-HT₃ antagonists are a class of medications which act as receptor antagonists at the 5-hydroxytryptamine-3 receptor (5-HT₃ receptor), a subtype of serotonin receptor found in terminals of the vagus nerve and in certain areas of the brain. With the notable exception of alosetron and cilansetron, which are used in the treatment of irritable bowel syndrome, all 5-HT₃ antagonists are antiemetics, used in the prevention and treatment of nausea and vomiting. They are particularly effective in controlling the nausea and vomiting produced by cancer chemotherapy, and are considered the gold standard for this purpose.
The 5-HT₃ antagonists may be identified by the suffix –setron, and are classified under code A04AA of the WHO's Anatomical Therapeutic Chemical Classification System.

Therapeutic uses

5-HT₃ antagonists are most effective in the prevention and treatment of chemotherapy-induced nausea and vomiting (CINV), especially that caused by highly emetogenic drugs such as cisplatin; when used for this purpose, they may be given alone or, more frequently, with a glucocorticoid, usually dexamethasone. They are usually given intravenously, shortly before administration of the chemotherapeutic agent, although some authors have argued that oral administration may be preferred. The concomitant administration of a NK₁ receptor antagonist, such as aprepitant, significantly increases the efficacy of 5-HT₃ antagonists in preventing both acute and delayed CINV.
The 5-HT₃ antagonists are also indicated in the prevention and treatment of radiation-induced nausea and vomiting (RINV), when needed, and postoperative nausea and vomiting (PONV). Although they're more effective at controlling CINV—where they stop symptoms altogether in up to 70% of people, and reduce them in the remaining 30%—, they're just as effective as other agents for PONV.
5-HT₃ antagonists are ineffective in controlling motion sickness.

Investigational

A small, open-label trial carried out in 2000 found ondansetron to be useful in treating antipsychotic-induced tardive dyskinesia in people with schizophrenia. The study's patients also showed significant improvement in the disease's symptoms; a later double-blind, randomized controlled trial also found ondansetron to significantly improve schizophrenia symptoms when used as an adjunct to haloperidol, and people taking both drugs experienced fewer of the adverse effects commonly associated with haloperidol.

Available agents

Ondansetron (trade name Zofran in most countries) was the first 5-HT₃ antagonist, developed by Glaxo around 1984. Its efficacy was first established in 1987, in animal models, and it was extensively studied over the following years. Ondansetron was approved by the U.S. Food and Drug Administration in 1991, and has since become available in several other countries, including the UK, Ireland, Australia, Canada, France and Brazil. As of 2008, it's the only 5-HT₃ antagonist available as a generic drug in the United States. It is given one to three times daily, depending on the severity of symptoms.
Tropisetron (trade name Navoban) was also first described in 1984. It is available in several countries, such as the UK, Australia and France, but not in the United States. The effects of tropisetron last up to 24 hours, so it only requires once-daily administration.
Granisetron (trade name Kytril) was developed around 1988. It is available in the U.S., UK, Australia and other countries. Clinical trials suggest that it's more effective than other 5-HT₃ antagonists in preventing delayed CINV (nausea and vomiting that occur more than 24 hours after the first dose of chemotherapy). It is taken once daily.
Dolasetron (U.S. trade name Anzemet) was first mentioned in the literature in 1989. It is a prodrug, and most of its effects are due to its active metabolite, hydrodolasetron, which is formed in the liver by the enzyme carbonyl reductase. Dolasetron was approved by the FDA in 1997, and is also administered once daily.

Palonosetron (trade name Aloxi) is the newest 5-HT₃ antagonist. It is an isoquinoline derivative, and is effective in preventing delayed CINV. Palonosetron was approved by the FDA in 2003, and is currently only available for intravenous use, although oral formulations are in clinical trials.
Certain medications such as cisapride, renzapride and metoclopramide, although not 5-HT₃ antagonists proper, possess some weak antagonist effect at the 5-HT₃ receptor. Galanolactone, a diterpenoid found in ginger, is a 5-HT₃ antagonist and is believed to at least partially mediate the anti-emetic activity of this plant.

Adverse effects

There are few side effects related to the use of 5-HT₃ antagonists; the most common are constipation or diarrhea, headache, and dizziness. Unlike antihistamines with antiemetic properties such as cyclizine, 5-HT₃ antagonists don't produce sedation, nor do they cause extrapyramidal effects, as phenothiazines (such as prochlorperazine) sometimes do.
All 5-HT₃ antagonists have been associated with electrocardiogram changes, such as prolongation of the PT and QTc intervals and certain arrhythmias. The clinical significance of these side effects is unknown.

Pharmacokinetics

All 5-HT₃ antagonists are well-absorbed and effective after oral administration, and all are metabolized in the liver by various isoenzymes of the cytochrome P450 system. They do not, however, inhibit or induce these enzymes.

Mechanism of action

As their name implies, 5-HT₃ antagonists prevent serotonin from binding to 5-HT₃ receptors. Such receptors are present mostly on the ends of afferent branches of the vagus nerve, which send signals directly to the brain's vomiting center in the medulla oblongata, and in the chemoreceptor trigger zone of the brain, which receives "input" from nausea-inducing agents in the bloodstream and communicates with the vomiting center. By preventing activation of these receptors, 5-HT₃ antagonists interrupt one of the pathways that lead to vomiting.
The 5-HT₃ antagonists are greatly selective, and have little affinity for other receptors, such as dopamine, histamine and muscarinic acetylcholine receptors.Further Information

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