Antibiotic Synthesis and Drug Roles PDF

Summary

This document details the synthesis of cell walls and the roles of specific drugs in antibiotics. It outlines the similarities and differences between various types of beta-lactam antibiotics and their application in treating different bacterial infections. It also describes the mechanism of action for different antibiotics and their impact.

Full Transcript

## **Synthesis of Cell Wall** 1. Producing the monomer 2. Structures add up to make polymer 3. Linkage 4. Cross linkage ## **Specific Drug Role in Antibiotics** * **Fosfomycin**: inhibit monomer * **Vancomycin and teicoplanin**: prevent bacteria wall from getting longer * **Beta Lactam**: preven...

## **Synthesis of Cell Wall** 1. Producing the monomer 2. Structures add up to make polymer 3. Linkage 4. Cross linkage ## **Specific Drug Role in Antibiotics** * **Fosfomycin**: inhibit monomer * **Vancomycin and teicoplanin**: prevent bacteria wall from getting longer * **Beta Lactam**: prevents cross linking of cell wall ## **Beta Lactam Similarities and Differences** ### **Similarities** * Mechanism of Action * Good tissue penetration * Pharmacodynamics * Renal Elimination * Short Half Lives * Bactericidal * **Adverse Effects**: Nausea, hypersensitivity, diarrhea ### **Differences** * Absorption * Hydrophilicity * Types of PBP targeted * Stability against degradation ## **Aminopenicillin** * Ampicillin, amoxicillin * Susceptible to beta lactamases, main uses in URI, ulcer disease ## **Beta Lactamase** * This destroys the drug, targets beta lactams ## **Natural Penicillin Routes** * Penicillin G- IV only * Penicillin V- PO only * Penicillin G Benzathine - IM only ## **Antistaphylococcal Penicillin** * Not well absorbed * Widely available * Resistant to penicillin * Need to use nafcillin, oxacillin, dicloxacillin

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