Sedative-Hypnotic Drugs PDF
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This document provides information on sedative-hypnotic drugs, including their classification, pharmacokinetics, and mechanism of action. It specifically focuses on benzodiazepines, and their clinical applications.
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Part 3: Sedative-Hypnotic Drugs These are drugs that cause sedation and relieve anxiety (anxiolytics), or can induce sleep. They are used primarily to treat anxiety and insomnia. Because there is considerable chemical variation within the group, these drugs are classified based on...
Part 3: Sedative-Hypnotic Drugs These are drugs that cause sedation and relieve anxiety (anxiolytics), or can induce sleep. They are used primarily to treat anxiety and insomnia. Because there is considerable chemical variation within the group, these drugs are classified based on their clinical uses rather than on chemical structure. Drugs with main use as sedatives: Drugs with main use as hypnotics: Benzodiazepines Barbiturates Buspirone Ramelteon Chloral hydrate 1. Benzodiazepines Benzodiazepines (BDZ) have a great margin of safety over previously available sedative–hypnotic agents (e.g., barbiturates). Most benzodiazepines have qualitatively similar therapeutic actions but differ in their relative lipid solubility, metabolism, and elimination half-life. Classification Short acting (t½ < 5h): midazolam – triazolam Intermediate acting (t½ 5-24 h): alprazolam – lorazepam - clonazepam Long acting (t½ > 24 h): diazepam – clorazepate - flurazepam Pharmacokinetics – Oral absorption is good and rapid. Highly lipid soluble drugs (e.g., midazolam, triazolam) have fast onset of action. – Long acting drugs are metabolized by oxidation (CYP450) into active metabolites giving them long duration of action (e.g. diazepam). – Short acting drugs are metabolized by conjugation into inactive metabolites followed by renal clearance. – In a patient with liver dysfunction, lorazepam and oxazepam, which are metabo- lized extrahepatically, are less likely to cause excessive CNS depression. Mechanism of action BDZ have special receptors in the CNS and peripheral tissue. By acting on these receptors, BDZ cause allosteric modulation of GABA action on GABAA receptors resulting in ↑ Cl- conductance and hyperpolarization. Six BDZ receptor subtypes have been discovered; subtype 1 is the most widely expressed and mediates most of the effects of BDZ. 339 Pharm macologica al effects Redduction off anxiety (anxiolytic ( effect) in smaall dose producing p calming effect in mann & tamingg effect in animals a Hyp ect: in high pnotic effe her doses. Cenntral skele etal musc cle relaxattion: this is u useful sinc ce increas sed ms to one is a commmon feature in anx xiety and mmay lead to h headache and a ms pa ain. Antticonvulsa ant effect. Acuute amnes sia: after high doses.. peutic use Therap es Anx xiety disorrders: e.g.. – A Acute anxiety. – G Generalizeed anxiety disorders (GAD). – S Social phoobia (social anxiety d disorder). BDZ Z are effec ctive for th he short-tterm mana agement (