Azalides such as azithromycin are a class of macrolide antibiotics that were originally manufactured in response to the poor acid stability exhibited by original macrolides (erythromycin). Following the clinical overuse of macrolides and azalides, ketolides have been developed to combat surfacing macrolide-azalide resistance among streptococci species. Azalides have several advantages over erythromycin such as more potent gram negative antimicrobial activity, acid stability, and side effect tolerability. Although there are few drug interactions with azithromycin, it weakly inhibits the CYP3A4 enzyme.
Structure
Azalides feature a nitrogen atom in their 15-membered macrolide ring, resulting in improved pharmacokinetic properties and greater stability when compared to earlier-generation macrolides. Replacement of the ketone group in traditional macrolides with a tertiary amine group confers greater acid stability. See Beckmann rearrangement.
Mechanism of action
Azalides bind to the bacterial 50S ribosomal subunit and inhibit polypeptide elongation by hindering peptidyl transfer RNA translocation.
Pharmacokinetics
Applicable pharmacokinetic indexes are free azalide AUC24/MIC because of the post antibiotic effect they exhibit, and free azalide concentration/MIC. Due to their large volume of distribution and lipophilic structure, azalides concentrate effectively in tissue.
References
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- ^ So, Wonhee; Nicolau, David P. (2016), "Pharmacodynamics of Macrolides, Azalides, and Ketolides", Methods in Pharmacology and Toxicology, New York, NY: Springer New York, pp. 345–366, doi:10.1007/978-1-4939-3323-5_14, ISBN 978-1-4939-3321-1, retrieved 2021-04-18
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