Presentation is loading. Please wait.

Presentation is loading. Please wait.

Cephalosporins Four Generations! Bactericidal & Time-Dependent!

Published byRuby Watkins Modified over 6 years ago

Similar presentations

Presentation on theme: "Cephalosporins Four Generations! Bactericidal & Time-Dependent!"— Presentation transcript:

1 Cephalosporins Four Generations! Bactericidal & Time-Dependent!

2 Cephalosporins A B-lactam Analogous to PCN in
Binding to specific PCN-binding proteins Inhibition of cell wall synthesis by blocking the transpeptidase step of peptidoglycan Bactericidal & Time-Dependent!

3 Cephalosporins Tissue Penetration: very good
Lung, kidney, muscle, synovial, pericardial, peritoneal and pleural fluids 5-10% cross reactivity rate with PCN allergies Specific resistance rates differ widely based on chemical structure (see cross reactivity article) Side Effects GI: 2-5% Rash: 1-3% Neutropenia: <1% Seizures: <1%  Lactam antibiotics MOA: binds to PBP-inhibit bacterial cell wall synthesis Most agents are renally excreted Exception: Ceftriaxone

4 Spectrum Activity In general a  in gram + and an  in gram - activity are observed as you move through generations 1-3. Cefepime (4th generation) maintains an excellent gram + and - activity.

5 1st Generation Cephalosporins
Cefazolin, Cefaclor (PO), Cephalexin (PO), Cefadroxil (PO) GRAM + >60%: Strep Pneumo, Strep ABCG, Strep viridans, MSSA 30-60%: Staph epidermidis Moderate GRAM - coverage >60%: Proteus, E. Coli, Klebsiella Salmonella, Shigella, Neisseria gonorrheae, H. Influenzae

6 2nd Generation Cephalosporins
Cefuroxime (IV, PO), Cefotetan, Cefoxitin GRAM + >60%: Strep: Pneumo, Viridans, MSSA 30-60%: Staph epidermidis  Gram - coverage vs. 1st gen >60%: Proteus, E. Coli, Klebsiella, Moraxella, Neisseria gonorrheae, H. Influenzae, Serratia. 30-60%: Citrobacter, Enterobacter. Cefotetan/Cefoxitin:  anaerobic coverage >60%: Clostridium (not difficile), B. fragilis

7 3rd Generation Cephalosporins
IV: Ceftriaxone, Ceftazidime, Cefotaxime PO: Cefpodoxime, Cefixime, Cefdinir, Ceftobiprole Gram +: same as 1st & 2nd ( bit less with Ceftaz) Good activity against Streptococci! Less activity against Staph than 1st and 2nd generation.  Gram - coverage vs. 2nd gen >60%: Proteus, E. Coli, Klebsiella, Moraxella, H. Influenzae, Serratia, Citrobacter, Enterobacter, Salmonella, Shigella, Pseudomonas (Ceftaz) 30-60%: Neisseria gonorrheae (best with Ceftriaxone).

8 4th Generation Cephs: Cefepime
Very broad coverage of both Gram + and Gram - Like 3rd generations, but: Very good against all strains of neisseria (>60%) Better vs. acinetobacter (30-60%) Not active against anaerobes

9 Carbapenems Imipenem, Meropenem, Ertapenem, Doripenem
Bactericidal-Time dependent

10 Carbapenems Imipenem, Meropenem, Ertapenem, Doripenem
Beta-lactams, but have somewhat different chemical structure vs. PCNs and CEPHs MOA: cause lysis of bacterial cell wall Highly stable to beta-lactamases!! Only available in IV form Have PAE against Gram - bugs Tissue penetration: good Renally eliminated (require adjustment)

11 Carbapenems Imipenem, Meropenem, Ertapenem, Doripenem
Side Effects GI: 4-5% Rash: 2-3% Infusion related: 3% Seizures: ~1% Bind to GABA Ertapenem:  infusion rxns (7-10%) CNS: confusion etc 5-10%) Coverage VERY BROAD SPECTRUM Gram + (NOT MRSA) Gram – (including pseudomonas) Anaerobes

12 Monobactams: Aztreonam
Also a beta lactam MOA: inhibits bacterial cell wall synthesis Coverage: Gram – only Covers Pseudomonas Not used as often as other agents Well tolerated Bactericidal-Time dependent!

13 Gycopeptide-Vancomycin
Bactericidal-Time dependent killer

14 Gycopeptides Vancomycin
MOA: Inhibit bacterial cell wall synthesis by binding to the D-ala-D- ala terminus of the pentapeptide, sterically interfering in the elongation of the cell wall polymer. Toxicities: Ototoxicity <1% Renal Dysfunction <1% Want trough levels ~ mg / dL Poor oral bioavailability Side Effects: Red man syndrome Facial flushing and hypotension Histamine reaction related to rate of infusion Always infuse Vancomycin over ≥ 60 min

15 Gycopeptides Vancomycin
ONLY COVERS GRAM + Treatment of choice for MRSA currently or Serious Gram + infection in PCN allergic patients.

16 How does resistance to Vancomycin develop?
Primarily through plasmid-mediated changes in permeability to the drug, and  binding of vancomycin to receptor molecules. Widespread use leading to resistance VRE: Vancomycin resistant enterococci Linezolid (Zyvox)

Download ppt "Cephalosporins Four Generations! Bactericidal & Time-Dependent!"

Similar presentations

Beta-Lactamase Inhibitors

Beta-Lactamase Inhibitors
Edward L. Goodman, MD Core Faculty Hospital Epidemiologist June 27, 2013.

Edward L. Goodman, MD Core Faculty Hospital Epidemiologist June 27, 2013.
Antimicrobials: Drugs that Weaken the Cell Wall

Antimicrobials: Drugs that Weaken the Cell Wall
CARBAPENEMS e.g. Imipenem / Cilastatin Meropenem

CARBAPENEMS e.g. Imipenem / Cilastatin Meropenem
Antibiotics.

Antibiotics.
The Beta-Lactam Antibiotics Cell wall active agents  Prevent the final step in the synthesis of the bacterial cell wall Range from very narrow spectrum.

The Beta-Lactam Antibiotics Cell wall active agents  Prevent the final step in the synthesis of the bacterial cell wall Range from very narrow spectrum.
Bacterial Physiology (Micr430) Lecture 10 Macromolecular Synthesis: Cell Wall (Text Chapter: 11)

Bacterial Physiology (Micr430) Lecture 10 Macromolecular Synthesis: Cell Wall (Text Chapter: 11)
Cephalosporins B-Lactam antibiotics ( similar to penicillins) Broad spectrum Act by inhibition of cell wall synthesis Bactericidal Inactive against :

Cephalosporins B-Lactam antibiotics ( similar to penicillins) Broad spectrum Act by inhibition of cell wall synthesis Bactericidal Inactive against :
Sorting Out Antibiotics: A systematic approach to antibiotic selection Kenneth Alexander, M.D., Ph.D. Associate Professor of Pediatrics and Microbiology.

Sorting Out Antibiotics: A systematic approach to antibiotic selection Kenneth Alexander, M.D., Ph.D. Associate Professor of Pediatrics and Microbiology.
CEPHALOSPORINS First used clinically in the early 1960’s. First used clinically in the early 1960’s. They have an important role in the modern treatment.

CEPHALOSPORINS First used clinically in the early 1960’s. First used clinically in the early 1960’s. They have an important role in the modern treatment.
Cephalosporins.

Cephalosporins.
ANTIBIOTICS.

ANTIBIOTICS.
Bacterial Cell Wall Inhibitors

Bacterial Cell Wall Inhibitors
Beta-lactam antibiotics - Cephalosporins

Beta-lactam antibiotics - Cephalosporins
Gram Negative Gram Positive

Gram Negative Gram Positive
ANTIBIOTICS LauraLe Dyner MD Pediatric Infectious Disease Fellow March 2009.

ANTIBIOTICS LauraLe Dyner MD Pediatric Infectious Disease Fellow March 2009.
Antibiotics 101 Puja Van Epps 1/20/14.

Antibiotics 101 Puja Van Epps 1/20/14.
Non-pharmacologic Elevate the affected area to facilitate gravity drainage of edema and inflammatory substances – Patients with edema may benefit from.

Non-pharmacologic Elevate the affected area to facilitate gravity drainage of edema and inflammatory substances – Patients with edema may benefit from.
Beta lactam antibiotics & Other cell wall synthesis inhibitors

Beta lactam antibiotics & Other cell wall synthesis inhibitors
DHS/PP Antimicrobial Therapy David H. Spach, MD Professor of Medicine Division of Infectious Diseases University of Washington, Seattle.

DHS/PP Antimicrobial Therapy David H. Spach, MD Professor of Medicine Division of Infectious Diseases University of Washington, Seattle.

Similar presentations

Ads by Google