Comparative Efficacies of Tedizolid Phosphate, Vancomycin, and Daptomycin in a Rabbit Model of Methicillin-Resistant Staphylococcus aureus Endocarditis

Chan, Liana C.; Basuino, Li; Dip, Etyene Castro; Chambers, Henry F.

doi:10.1128/aac.04376-14

Cited by 23 publications

(18 citation statements)

References 20 publications

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“…Accordingly, antitoxin antibodies plus protein synthesis inhibitors, like linezolid and tedizolid phosphate, are expected to work together to further enhance survival outcomes by neutralizing preformed toxins and preventing their cytotoxic effects in the lungs, as well as inhibiting the bacterial production of these toxins. The superior protective efficacy of tedizolid phosphate over that of vancomycin in the rabbit MRSA USA300 pneumonia model stands in contrast to the superior protective efficacy of vancomycin over that of tedizolid phosphate in the rabbit model of aortic valve endocarditis (20). One potential explanation for this discrepancy could be that the USA300/SF8300 clinical strain used in the rabbit pneumonia model is known to naturally hyperproduce alpha-toxin and PVL (21), which together play critical roles in the pathogenesis of necrotizing pneumonia (5,7).…”

Section: Discussioncontrasting

confidence: 41%

Effects of Tedizolid Phosphate on Survival Outcomes and Suppression of Production of Staphylococcal Toxins in a Rabbit Model of Methicillin-Resistant Staphylococcus aureus Necrotizing Pneumonia

Pinheiro

et al. 2017

Antimicrob Agents Chemother

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The protective efficacy of tedizolid phosphate, a novel oxazolidinone that potently inhibits bacterial protein synthesis, was compared to those of linezolid, vancomycin, and saline in a rabbit model of Staphylococcus aureus necrotizing pneumonia. Tedizolid phosphate was administered to rabbits at 6 mg/kg of body weight intravenously twice daily, which yielded values of the 24-h area under the concentration-time curve approximating those found in humans. The overall survival rate was 83% for rabbits treated with 6 mg/kg tedizolid phosphate twice daily and 83% for those treated with 50 mg/kg linezolid thrice daily (P ϭ 0.66 by the log-rank test versus the results obtained with tedizolid phosphate). These survival rates were significantly greater than the survival rates of 17% for rabbits treated with 30 mg/kg vancomycin twice daily (P ϭ 0.003) and 17% for rabbits treated with saline (P ϭ 0.002). The bacterial count in the lungs of rabbits treated with tedizolid phosphate was significantly decreased compared to that in the lungs of rabbits treated with saline, although it was not significantly different from that in the lungs of rabbits treated with vancomycin or linezolid. The in vivo bacterial production of alpha-toxin and Panton-Valentine leukocidin, two key S. aureus-secreted toxins that play critical roles in the pathogenesis of necrotizing pneumonia, in the lungs of rabbits treated with tedizolid phosphate and linezolid was significantly inhibited compared to that in the lungs of rabbits treated with vancomycin or saline. Taken together, these results indicate that tedizolid phosphate is superior to vancomycin for the treatment of S. aureus necrotizing pneumonia because it inhibits the bacterial production of lung-damaging toxins at the site of infection.

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Section: Discussioncontrasting

confidence: 41%

Effects of Tedizolid Phosphate on Survival Outcomes and Suppression of Production of Staphylococcal Toxins in a Rabbit Model of Methicillin-Resistant Staphylococcus aureus Necrotizing Pneumonia

Pinheiro

et al. 2017

Antimicrob Agents Chemother

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“…We demonstrated that the combination of tedizolid plus rifampin or vancomycin plus rifampin was more active than no treatment in this model, in which the infected foreign body was retained. Although the activity of tedizolid against methicillin-resistant S. aureus (MRSA) has been analyzed in several experimental studies, such as in a model of experimental endocarditis in rabbits (17) and a model of catheter-related biofilm infection in mice (18), the role of tedizolid against MRSE in experimental osteomyelitis has not been well studied. Successful animal models of osteomyelitis and foreign body infection have been established in rabbits, dogs, chicks, guinea pigs, and rats (19,20).…”

Section: Discussionmentioning

confidence: 99%

Activity of Tedizolid in Methicillin-Resistant Staphylococcus epidermidis Experimental Foreign Body-Associated Osteomyelitis

Park

Greenwood‐Quaintance

Schuetz

et al. 2017

Antimicrob Agents Chemother

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We developed a rat model of methicillin-resistant Staphylococcus epidermidis (MRSE) foreign body-associated osteomyelitis and used it to compare tedizolid alone and in combination with rifampin against rifampin alone, vancomycin plus rifampin, and vancomycin alone. A clinical strain of MRSE was inoculated into the proximal tibia, and a stainless steel wire with a precolonized MRSE biofilm was implanted. Following a 1-week infection period, 92 rats received either no treatment (n ϭ 17) or 14 days of intraperitoneal tedizolid (n ϭ 15), tedizolid plus rifampin (n ϭ 15), rifampin (n ϭ 15), vancomycin plus rifampin (n ϭ 15), or vancomycin (n ϭ 15). Quantitative bone and wire cultures were performed after treatment completion and also 1 week after infection in a separate group of five rats. The median quantity of staphylococci in bone after the 1-week infection period was 4.89 log 10 CFU/g bone (interquartile range, 3.83 to 5.33 log 10 CFU/g bone); staphylococci were recovered from all associated wires. A median quantity of staphylococci of 3.70 log 10 CFU/g bone was detected in bones of untreated control rats after 3 weeks. Quantities of staphylococci in bones of all treatment groups except the group receiving vancomycin alone (2.78 log 10 CFU/g) were significantly lower than those for untreated controls, with no staphylococci being detected in the groups receiving rifampin monotherapy, tedizolid-plus-rifampin combination therapy, and vancomycin-plus-rifampin combination therapy. Quantities of staphylococci on wires from all treatment groups that included rifampin were significantly lower than those for untreated controls. No resistance to rifampin, tedizolid, or vancomycin was detected. Tedizolid combined with rifampin was active in a rat model of MRSE foreign body-associated osteomyelitis.

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“…In nonclinical studies, tedizolid phosphate demonstrated promising efficacy results across a range of animal infection models (Chan et al, 2009;Louie et al, 2011;Lepak et al, 2012); phase 3 trials showed that administration of intravenous or oral tedizolid phosphate (200 mg once daily) for 6 days achieved noninferior efficacy in acute bacterial skin and skin structure infections compared with 10 days of linezolid therapy (Prokocimer et al, 2011Fang et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

Absorption, Distribution, Metabolism, and Excretion of the Novel Antibacterial Prodrug Tedizolid Phosphate

et al. 2014

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Tedizolid phosphate is a novel antibacterial prodrug with potent activity against Gram-positive pathogens. In vitro and in vivo studies demonstrated that the prodrug is rapidly converted by nonspecific phosphatases to the biologically active moiety tedizolid. Single oral dose radiolabeled 14 C-tedizolid phosphate kinetic studies in human subjects (100 mCi in 204 mg tedizolid phosphate free acid) confirmed a rapid time to maximum tedizolid concentration (T max , 1.28 hours), a long terminal half-life (10.6 hours), and a C max of 1.99 mg/ml. Metabolite analysis of plasma, fecal, and urine samples from rats, dogs, and humans confirmed that tedizolid is the only measurable metabolite in plasma after intravenous (in animals only) or oral administration and that tedizolid sulfate is the major metabolite excreted from the body. Excellent mass balance recovery was achieved and demonstrated that fecal excretion is the predominant (80-90%) route of elimination across species, primarily as tedizolid sulfate. Urine excretion accounted for the balance of drug elimination but contained a broader range of minor metabolites. Glucuronidation products were not detected. Similar results were observed in rats and dogs after both intravenous and oral administration. The tedizolid metabolites showed less potent antibacterial activity than tedizolid. The observations from these studies support once daily dosing of tedizolid phosphate and highlight important metabolism and excretion features that differentiate tedizolid phosphate from linezolid.

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Comparative Efficacies of Tedizolid Phosphate, Vancomycin, and Daptomycin in a Rabbit Model of Methicillin-Resistant Staphylococcus aureus Endocarditis

Cited by 23 publications

References 20 publications

Effects of Tedizolid Phosphate on Survival Outcomes and Suppression of Production of Staphylococcal Toxins in a Rabbit Model of Methicillin-Resistant Staphylococcus aureus Necrotizing Pneumonia

Effects of Tedizolid Phosphate on Survival Outcomes and Suppression of Production of Staphylococcal Toxins in a Rabbit Model of Methicillin-Resistant Staphylococcus aureus Necrotizing Pneumonia

Activity of Tedizolid in Methicillin-Resistant Staphylococcus epidermidis Experimental Foreign Body-Associated Osteomyelitis

Absorption, Distribution, Metabolism, and Excretion of the Novel Antibacterial Prodrug Tedizolid Phosphate

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