Ceftaroline in the treatment of methicillin-resistant and daptomycin-non-susceptible Staphylococcus aureus bacteremia and infective endocarditis in end-stage renal disease

A 34-year-old man presented to the emergency center with nausea, vomiting, and shortness of breath for two days. Past medical history included uncontrolled diabetes mellitus, end-stage renal disease on intermittent hemodialysis, failed kidney transplantation, and hypertension. The patient was previously admitted to our facility one month prior due to line sepsis secondary to methicillin-resistant Staphylococcus aureus (MRSA) bacteremia for which vancomycin

(minimum inhibitory concentration [MIC]<1mcg/mL) was initiated and continued for two weeks on an outpatient basis.On admission the patient had an elevated white count with left shift, fever, and tachycardia.The patient was admitted to the intensive care unit, cultures were drawn prior to initiating antimicrobial therapy, and an empiric regimen of cefepime, piperacillin-tazobactam, and vancomycin was started.Due to his recent bacteremia, a transesophageal echocardiogram (TEE) was ordered to determine presence of cardiac vegetations.Initial blood cultures (2/2) grew MRSA (vancomycin MIC<1mcg/mL, daptomycin MIC <2mcg/mL) by the BD Phoenix automated system for antimicrobial susceptibility testing, and TEE revealed a 0.5 centimeter vegetation on the mitral valve.The infectious disease team was consulted at this time to manage MRSA endocarditis and persistent or relapsed bacteremia.Upon review of the vancomycin bilities of MRSA isolates from the patient's blood culture showed the trend of increasing vancomycin MICs and corresponding increase in daptomycin MICs.TEE and transthoracic echo (TTE) did not show evidence of vegetation, indicating that the infection was less invasive than in our particular case. 5Based on safe and similar use in other patient cases, multiple case reports of its use as salvage therapy, and the cephalosporin's established wide safety profile, we started ceftaroline 600 mg IV every 12h, a slightly reduced frequency from the suggested every eight hour frequency in patients with adequate renal function.After two doses of ceftaroline 600 mg plus continued rifampin, three sets of blood cultures were drawn and subsequently showed no growth.It is worth noting that attributing blood sterilization solely to ceftaroline therapy is difficult and that complete sterilization in MRSA bacteremia is often a long process due to the nature of staphylococcal infections.However, we had only negative blood cultures following this therapy change and noted significant clinical improvement in our patient.The patient did not have any adverse effects from therapy and continued to show clinical improvement until discharge.

DisCussion
Optimal therapy for persistent MRSA bacteremia and endocarditis is now complicated by increasing concern regarding the use of daptomycin in patients failing vancomycin therapy due to observations of daptomycin MICs rising with vancomycin MICs. 1 Glycopeptides and lipopeptides are the agents of choice for serious MRSA infections, but recently clinical MRSA strains have developed reduced-susceptibility phenotypes that are associated with treatment failure. 13It has been proposed that perhaps the corresponding increase in MICs between vancomycin and daptomycin is due to bacterial cell wall alterations, possibly rendering both agents ineffective against some strains of MRSA.Moreover, the recent emergence of MRSA isolates that are susceptible to vancomycin but are tolerant to its killing effects has led to a deeper analysis of the genetic variations that may exist and exert reduced susceptibility patterns.13   dosing and monitoring history, the infectious disease and nephrology team concluded that previous vancomycin dosing was inadequate and decided to continue with an optimized dosing regimen of vancomycin tailored to the patient's hemodialysis schedule and rifampin 300 mg by mouth twice daily.Although there is no strong evidence to support the use of rifampin for native valve endocarditis, the decision was made to use it as adjunctive therapy for staphylococcal infection of the blood.Following a subsequent set of positive blood cultures (2/2) for MRSA and two more growing Gram positive cocci in clusters, the infectious disease team decided to discontinue vancomycin due to therapeutic non-response, based on persistent bacteremia and continued clinical deterioration even with therapeutic serum levels, and initiate daptomycin 6 mg/kg IV q48h plus rifampin.At this time susceptibilities for the repeat blood isolates were pending.Once available, susceptibilities were reviewed and showed the MIC for vancomycin had increased from 1 to 2 mcg/mL and daptomycin susceptibilities were reported as "N/R," which is interpreted as "non-susceptible", with MICs in the intermediate to possibly resistant range.Daptomycin was discontinued and following multiple case reports of its success as salvage therapy in MRSA bacteremia and endocarditis, the decision was made to initiate ceftaroline.
There are multiple case reports of similar scenarios, in which elevated and increasing vancomycin MICs (>2 mcg/mL) correspond with "N/R" or "nonsusceptible" daptomycin MICs for MRSA.These case reports highlight successful sterilization of blood within <24 hours of ceftaroline therapy, with suggested doses for endocarditis of 600 mg IV every 8 hours. 1 However, there is limited dosing data for endocarditis in end-stage renal disease (ESRD) requiring hemodialysis.Available ESRD dosing exists for less invasive, FDA-approved indications only, such as acute bacterial skin and skin structure infections and communityacquired bacterial pneumonia (CABP). 1,2,5In a similar case reported by Zainah et al., a middle-aged man with persistent MRSA bacteremia and ESRD requiring hemodialysis was safely treated with ceftaroline 400 mg IV every 12 hours.Similarly, in vitro suscepti-Gram-positive bacteria, including MRSA. 1,7,9Ceftaroline, although not FDA approved for MRSA bacteremia or endocarditis, exhibits potent anti-MRSA activity in vitro and has low MICs for MRSA isolates.

5,8
Additionally, ceftaroline has in vitro activity against vancomycin-intermediate S. aureus (VISA) and vancomycin-resistant strains of S. aureus (VRSA). 5Although human clinical trials in MRSA bacteremia or endocarditis have not been conducted, in vitro and in vivo animal models show that ceftaroline exhibits superior bactericidal activity against resistant S. aureus endocarditis compared to vancomycin, linezolid, and tigecycline. 5,8,10Moreover, rabbit endocarditis models have shown ceftaroline to be superior in sterilizing valvular vegetations compared to daptomycin and teicoplanin due to MRSA, MSSA (methicillin-sensitive S. aureus), and VISA. 5,9In rabbit MSSA, MRSA, and GISA (glycopeptide intermediate S. aureus) endocarditis models, ceftaroline was superior to daptomycin in vegetation sterilization and showed high bactericidal activity compared to tigecycline. 10The frequent monitoring that is required during vancomycin therapy, both to ensure maintenance of therapeutic trough concentrations and also to ensure lack of toxic build up, was also a challenge in treating our patient.Additionally, ceftaroline lacks the nephrotoxic effects of vancomycin or myositis associated with daptomycin, making it an attractive option for our patient and decreases the monitoring burden during therapy.

ConClusion
The increased incidence of highly resistant bacterial infections requires the use of newer drugs against those pathogens.Relying on in vitro data, successful in vivo data in animal models, and a handful of human case reports, it was decided that treatment with ceftaroline was a reasonable and safe option for our patient.Human clinical studies to establish ceftaroline's efficacy and safety profile in MRSA bacteremia and endocarditis are needed to clearly define its place in therapy, but until such studies are available we conclude that ceftaroline can be considered These vancomycin-tolerant MRSA (VT-MRSA) isolates exhibit a number of genotypic and phenotypic characteristics that may play an important role in tolerance.Additionally S. aureus possesses many genetic regulators, which are differentially expressed in certain strains with reduced susceptibilities to the glycoand lipopeptides. 13Gene dysfunction of the accessory gene regulator (agr) group II element reduces in vitro vancomycin killing and is associated with treatment failure in patients with severe MRSA infections. 13In daptomycin non-susceptible S. aureus strains, modifications in the membrane surface charge, phosphatidylglycerol turnover, and cell wall structure influence the activity of daptomycin.The expression of the mprF and/or dltABCD gene control these cell wall modifications. 13Ceftaroline targets PBP 1-4, with very high affinity for PBP2a, the protein responsible for methicillin resistance, and therefore may be able to overcome some of these resistance mechanisms.This unique affinity for this particular binding protein distinguishes ceftaroline from earlier generation cephalosporins and expands coverage to include MRSA, including the Panton-Valentine-leukocidin (PVL)-producing strains, as well as strains that show resistance to glycopeptides, daptomycin, clindamycin, linezolid, and sulfmethoxazole-trimethoprim.

8,9
Cephalosporins have been the mainstay of therapy for Gram positive infections until the recent rise in resistance to beta-lactam antibiotics, causing a shift to vancomycin as the usual first-line, empiric, agent of choice for staphylococcal infections. 9The 2009 Infectious Diseases Society of America guidelines for MRSA bacteremia recommend high-dose vancomycin with target serum troughs of 15-20 mcg/ mL and an AUC/MIC ratio of >400. 11However, these targets have not been validated for bacteremia and achieving these targets often comes with an increased risk of nephrotoxicity.This limits its use in certain patient populations, particularly those with pre-existing renal impairment.
Ceftaroline is a novel, advanced, or "fifth generation", broad-spectrum cephalosporin that has rapid bactericidal activity against Gram-negative and