Dalbavancin, oritavancin and telavancin are semisynthetic lipoglycopeptides that demonstrate promise for the treatment of patients with infections caused by multi-drug-resistant Gram-positive pathogens. Each of these agents contains a heptapeptide core, common to all glycopeptides, which enables them to inhibit transglycosylation and transpeptidation (cell wall synthesis). Modifications to the heptapeptide core result in different in vitro activities for the three semisynthetic lipoglycopeptides. All three lipoglycopeptides contain lipophilic side chains, which prolong their half-life, help to anchor the agents to the cell membrane and increase their activity against Gram-positive cocci. In addition to inhibiting cell wall synthesis, telavancin and oritavancin are also able to disrupt bacterial membrane integrity and increase membrane permeability; oritavancin also inhibits RNA synthesis. Enterococci exhibiting the VanA phenotype (resistance to both vancomycin and teicoplanin) are resistant to both dalbavancin and telavancin, while oritavancin retains activity. Dalbavancin, oritavancin and telavancin exhibit activity against VanB vancomycin-resistant enterococci. All three lipoglycopeptides demonstrate potent in vitro activity against Staphylococcus aureus and Staphylococcus epidermidis regardless of their susceptibility to meticillin, as well as Streptococcus spp. Both dalbavancin and telavancin are active against vancomycin-intermediate S. aureus (VISA), but display poor activity versus vancomycin-resistant S. aureus (VRSA). Oritavancin is active against both VISA and VRSA. Telavancin displays greater activity against Clostridium spp. than dalbavancin, oritavancin or vancomycin. The half-life of dalbavancin ranges from 147 to 258 hours, which allows for once-weekly dosing, the half-life of oritavancin of 393 hours may allow for one dose per treatment course, while telavancin requires daily administration. Dalbavancin and telavancin exhibit concentration-dependent activity and AUC/MIC (area under the concentration-time curve to minimum inhibitory concentration ratio) is the pharmacodynamic parameter that best describes their activities. Oritavancin's activity is also considered concentration-dependent in vitro, while in vivo its activity has been described by both concentration and time-dependent models; however, AUC/MIC is the pharmacodynamic parameter that best describes its activity. Clinical trials involving patients with complicated skin and skin structure infections (cSSSIs) have demonstrated that all three agents are as efficacious as comparators. The most common adverse effects reported with dalbavancin use included nausea, diarrhoea and constipation, while injection site reactions, fever and diarrhoea were commonly observed with oritavancin therapy. Patients administered telavancin frequently reported nausea, taste disturbance and insomnia. To date, no drug-drug interactions have been identified for dalbavancin, oritavancin or telavancin. All three of these agents are promising alternatives for the trea...
Ceftaroline is a broad-spectrum cephalosporin currently under clinical investigation for the treatment of complicated skin and skin-structure infections (cSSSI), including those caused by meticillin-resistant Staphylococcus aureus (MRSA), and community-acquired pneumonia (CAP). Ceftaroline has the ability to bind to penicillin-binding protein (PBP)2a, an MRSA-specific PBP that has low affinity for most other beta-lactam antibacterials. The high binding affinity of ceftaroline to PBP2a (median inhibitory concentration 0.90 microg/mL) correlates well with its low minimum inhibitory concentration for MRSA. Ceftaroline is active in vitro against Gram-positive cocci, including MRSA, meticillin-resistant Staphylococcus epidermidis, penicillin-resistant Streptococcus pneumoniae and vancomycin-resistant Enterococcus faecalis (not E. faecium). The broad-spectrum activity of ceftaroline includes many Gram-negative pathogens but does not extend to extended-spectrum beta-lactamase-producing or AmpC-derepressed Enterobacteriaceae or most nonfermentative Gram-negative bacilli. Ceftaroline demonstrates limited activity against anaerobes such as Bacteroides fragilis and non-fragilis Bacteroides spp. Limited data show that ceftaroline has a low propensity to select for resistant subpopulations. Ceftaroline fosamil (prodrug) is rapidly converted by plasma phosphatases to active ceftaroline. For multiple intravenous doses of 600 mg given over 1 h every 12 hours for 14 days, the maximum plasma concentration was 19.0 microg/mL and 21.0 microg/mL for first and last dose, respectively. Ceftaroline has a volume of distribution of 0.37 L/kg (28.3 L), low protein binding (<20%) and a serum half-life of 2.6 hours. No drug accumulation occurs with multiple doses and elimination occurs primarily through renal excretion (49.6%). Based on Monte Carlo simulations, dosage adjustment is recommended for patients with moderate renal impairment (creatinine clearance 30-50 mL/min); no adjustment is needed for mild renal impairment. Currently, limited clinical trial data are available for ceftaroline. A phase II study randomized 100 patients with cSSSI to intravenous ceftaroline 600 mg every 12 hours or intravenous vancomycin 1 g every 12 hours with or without intravenous aztreonam 1 g every 8 hours (standard therapy) for 7-14 days. Clinical cure rates were 96.7% for ceftaroline compared with 88.9% for standard therapy. Adverse events were similar between groups and generally mild in nature. In a phase III trial, 702 patients with cSSSI were randomized to ceftaroline 600 mg or vancomycin 1 g plus aztreonam 1 g, each administered intravenously every 12 hours for 5-14 days. Ceftaroline was noninferior to vancomycin plus aztreonam in treating cSSSI caused by both Gram-positive and -negative pathogens. Adverse event rates were similar between groups. Ceftaroline is well tolerated, which is consistent with the good safety and tolerability profile of the cephalosporin class. In summary, ceftaroline is a promising treatment for cSSSI and CAP, and has potenti...
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