- Mechanism of action and resistance of different antimicrobials and resistance rates against Clostridioides difficile.
| Antimicrobials | Targets | Putative resistance mechanism (S) | Resistances (%) | Refrences |
|---|---|---|---|---|
| Metronidazole | Bacterial DNA | Alterations in some metabolic pathways, biofilm formation | 0-20.25 | 32,33,36,41 |
| Vancomycin | Binding to D-alanyl-D-alanine residues precursor of peptidoglycan | Mutations in peptidoglycan biosynthesis-required proteins, biofilm formation | 0-41 | 32,33,36,41 |
| Rifampicin | Bacterial DNA-dependent RNA polymerase | Mutations in rpoB | 0-91 | 32,36,41 |
| Clindamycin | 50s ribosomal subunit of bacteria | Alterations in ribosomal target or active efflux pumps | 0-100 | 26,32,33,36,41 |
| Erythromycin | 50s subunit of the bacteria | Alterations in ribosomal target or active efflux pumps | 0-100 | 26,32,33,36,41 |
| Tetracycline | 30S ribosomal subunit of bacteria | Tetracycline resistance protein (tetM) and the active efflux pumps | 0-62.7 | 26,32,33,36,41 |
| Moxifloxacin | Bacterial DNA gyrase | Alteration of the drug target | 0-100 | 32,33,41 |
| Fusidic acid | Blocking the ribosome by binding to “factor G” | Mutations in fusA | 0-40 | 41 |
| Ciprofloxacin | Bacterial DNA gyrase | Alteration of the drug target and the active efflux pumps | 23-42 | 33,41 |