Tissue penetration of antimicrobials
From IDWiki
Summary
| Class | Antimicrobial | Blood | CNS | Vitreous | Urine | Prostate | Necrotic |
|---|---|---|---|---|---|---|---|
| Antibiotics: β-Lactams | |||||||
| Penicillins | β-lactamase inhibitors | – | |||||
| ampicillin | + | – | |||||
| piperacillin-tazobactam | +† | ||||||
| Cephalosporins | first-generation cephalosporins | – | – | ||||
| second-generation cephalosporins | – | ||||||
| third-generation cephalosporins | +† | ||||||
| cefepime | + | ||||||
| ceftazidime | + | + | |||||
| Cephamycins | cephamycins | – | |||||
| cefoxitin | – | ||||||
| Carbapenems | imipenem | + | |||||
| Antibiotics: Non-β-Lactams | |||||||
| Aminoglycosides | – | ||||||
| Chloramphenicol | chloramphenicol | + | |||||
| Fluoroquinolones | –? | + | + | ||||
| Fosfomycin | fosfomycin | + | |||||
| Lincosamides | clindamycin | – | + | ||||
| Lipopeptides | daptomycin | + | – | + | |||
| Macrolides | macrolides | – | + | ||||
| Nitrofurans | nitrofurantoin | – | – | + | – | – | |
| Nitroimidazoles | metronidazole | + | |||||
| Rifamycins | rifampin | + | |||||
| Sulfonamides | trimethoprim-sulfamethoxazole | + | |||||
| Tetracyclines | tetracyclines | – | + | ||||
| doxycycline | + | + | |||||
| Antivirals | |||||||
| acyclovir / valacyclovir | + | ||||||
| ganciclovir | + | ||||||
| foscarnet | |||||||
| Antifungals | |||||||
| Azoles | fluconazole | + | |||||
| Echinocandins | + | – | |||||
| Class | Antimicrobial | Blood | CNS | Urine | Prostate | Necrotic | |
- † if inflammation present
Prostate
- Poorly penetrated by most antibiotics
- Penetration is higher with a high concentration gradient, high lipid solubility, low degree of ionization, high dissociation constant, low protein binding, and small molecular size
- Fluoroquinolones are the mainstay of therapy, though there is increasing resistance
- TMP-SMX often used, though conflicting data about its penetration into the prostate
- Minocycline, doxycycline, and macrolides achieve high levels in the prostate but are rarely indicated for the causative organisms
- Third-generation cephalosporins and carbapenems can be used
- Piperacillin, aztreonam, imipenem, and some aminoglycosides are likely useful
Bone
- Essentially all antibiotics achieve similar bone-to-serum levels, with the exception of oral β-lactams which nevertheless have no worse outcomes1
References
- ^ Cornelia B. Landersdorfer, Jürgen B. Bulitta, Martina Kinzig, Ulrike Holzgrabe, Fritz Sörgel. Penetration of Antibacterials into Bone. Clinical Pharmacokinetics. 2009;48(2):89-124. doi:10.2165/00003088-200948020-00002.
