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Transcript
DENS 521
Clinical Dental Therapeutics
4th Lecture
By
Abdelkader Ashour, Ph.D.
Phone: 4677212
Email: [email protected]
Cephalosporins,
Overview
 Cephalosporins were first obtained from a filamentous fungus
“Cephalosporium”
 Cephalosporins are similar to penicillins chemically, in mechanism of
action and in toxicity
 The intrinsic antimicrobial activity of natural cephalosporins is low, but the
attachment of various R1 and R2 groups (see classification) has yielded
drugs of good therapeutic activity and low toxicity
 Cephalosporins are affected by the same resistance mechanisms as
penicillins. However, they tend to be more resistant than the penicillins to
bacterial b-lactamases, and therefore usually have a broader spectrum of
activity
 Methicillin-resistant Staphylococcus aureus (MRSA) should be considered
resistant to all cephalosporins, except fifth-generation cephalosporins
Cephalosporins, Classification
 Cephalosporins are divided into five generations with
original agents being referred to as first-generation
cephalosporins, and the most recent agents as fifthgeneration cephalosporins
 In general, the spectrum of activity of cephalosporins
increases with each generation because of
decreasing susceptibility to bacterial b-lactamases
 First-Generation Cephalosporins
 Examples: cephradine, cephalexin. There are "long-
acting" agents, such as cefadroxil
 They are active against most staphylococci,
pneumococci, and all streptococci, with the important
exception of enterococci
 Their activity against aerobic G-ve bacteria and
against anaerobes is limited
 They act as penicillin G substitutes. They are resistant
to b-lactamase
 They distribute widely throughout the body, but do not
penetrate well into the CSF (not used for meningitis)
 Their t1/2 ranges from 30 minutes to 1.5 hours, and
they are eliminated unchanged in the urine
 They should not be given to patients with a history of
immediate-type hypersensitivity reactions to penicillins
Cephalosporins, Classification
 Second-Generation Cephalosporins
 They have a broader bacteriologic spectrum than
do the first-generation agents
 They are more resistant to b-lactamase than the
first-generation drugs
 For example, cefamandole, cefuroxime, and
cefaclor not only are more active against G-ve
enteric bacteria but are active against both blactamase-negative and -positive strains of H.
influenzae
 Their half-lives are similar to those of the firstgeneration agents
 Excretion is primarily renal, and they distribute
widely. However, they do not attain sufficient
concentrations in the CSF to warrant their use in
the treatment of bacterial meningitis
Cephalosporins, Classification
 Third-Generation Cephalosporins
 These agents retain much of the G+ve activity of the
first two generations, although their antistaphylococcal activity is reduced. They are
remarkably active against most G-ve enteric isolates
 Some third-generation cephalosporins (e.g.,
ceftazidime and cefoperazone) also are active against
most isolates of P. aeruginosa
 In healthy subjects, their half-lives range from 1 hour
(cefotaxime) to between 6 and 8 hours (ceftriaxone)
 These antibiotics diffuse well into most tissues (e.g.,
cefotaxime and ceftriaxone
 Excretion is primarily renal
 Indications include suspected bacterial meningitis and
treatment of hospital-acquired multiple-resistant G-ve
aerobic infections and suspected infections in certain
compromised hosts
 Ceftriaxone is the drug of choice in treating infections
caused by N. gonorrhoeae in geographic areas with a
high incidence of penicillin-resistant isolates
Cephalosporins, Classification
 Fourth-Generation Cephalosporins
 This generation of cephalosporins (such as cefepime, cefpirome) combines the antistaphylococcal activity (but only those that are methicillin-susceptible) of firstgeneration agents with the G-ve spectrum (including Pseudomonas) of thirdgeneration cephalosporins
 This class of cephalosporins have increased stability against hydrolysis by blactamases
 These drugs are usually administrated parenterally
 They demonstrated good penetration into CSF compared to cefotaxime
 They are highly active against common pediatric meningeal pathogens, including
Streptococcus pneumoniae. Their vitro activity against penicillin-resistant
pneumococci is generally twice that of cefotaxime or ceftriaxone
 Fourth-generation agents are particularly useful for the empirical treatment of serious
infections in hospitalized patients when gram-positive microorganisms,
Enterobacteriaceae, and Pseudomonas all are potential etiologies
Cephalosporins, Classification
 Fifth-Generation Cephalosporins
 These are novel cephalosporins with activity against MRSA
 Example: Ceftaroline
 Ceftaroline, the active metabolite of a N-phosphono prodrug, ceftaroline fosamil,
has been recently approved by the US FDA for the treatment of acute bacterial
skin and skin structure infections and community-acquired bacterial pneumonia
 This antimicrobial agent binds to penicillin binding proteins (PBP) inhibiting cell
wall synthesis and has a high affinity for PBP2a, which is associated with
methicillin resistance
 Ceftaroline is consistently active against multidrug-resistant Streptococcus
pneumoniae and Staphylococcus aureus, including methicillin-resistant strains
 The drug is usually administrated intravenously at 600 mg every 12 h
 Ceftaroline has low protein binding and is excreted by the kidneys and thus
requires dose adjustments in individuals with renal failure
Cephalosporins,
Side Effects
 Serious, adverse reactions to the cephalosporins are uncommon. As with most
antibiotics, the full spectrum of hypersensitivity reactions may occur, including
rashes, fever, eosinophilia, serum sickness and anaphylaxis
 The incidence of immediate-type allergic reactions to the cephalosporins is increased
among patients known to be allergic to penicillins
 Adverse reactions attributable to irritation at the site of administration are common.
These reactions include local pain after i.m. injection, phlebitis after i.v. administration
and minor GI complaints after oral administration
 Third-generation drugs may cause transient elevations of liver function test results
and blood urea nitrogen concentrations. They also have a profound inhibitory effect
on the vitamin K-synthesizing bacterial flora of the GIT. In addition, some agents,
such as cefoperazone, can cause hypoprothombinemia and bleeding