In vitro and in vivo evaluations of oxacillin efficiency against mecA-positive oxacillin-susceptible Staphylococcus aureus

Community-type Staphylococcus aureus strains that are positive for mecA and PBP2a but appear phenotypically susceptible to oxacillin are increasingly reported worldwide. Four S. aureus clinical isolates carrying the mecA gene with oxacillin MICs of <2 μg/ml were tested for oxacillin efficiency by population analyses and experimental thigh infections. These isolates harbored staphylococcal cassette chromosome mec type IV and belonged to two genotypes. Two of the four isolates were found by population analysis to be truly oxacillin susceptible. All four isolates exhibited significant reductions in the numbers of colonies grown after dicloxacillin treatment of experimental thigh infections, as also did a mecA-negative S. aureus control strain. These observations indicate that some of the phenotypically oxacillin susceptible mecA-positive Staphylococcus aureus isolates may be at least partially responsive to oxacillin.     

Antimicrobial Activity of Ceftaroline Tested against Staphylococci with Reduced Susceptibility to Linezolid,Daptomycin, or Vancomycin from U.S. Hospitals, 2008 to 2011

Vancomycin, linezolid, and daptomycin are very active against staphylococci, but isolates with decreased susceptibility to these antimicrobial agents are isolated sporadically. A total of 19,350 Staphylococcus aureus isolates (51% methicillin resistant [MRSA]) and 3,270 coagulase-negative staphylococci (CoNS) were collected consecutively from 82 U.S. medical centers from January 2008 to December 2011 and tested for susceptibility against ceftaroline and comparator agents by the reference broth microdilution method. Among S. aureus strains, 14 isolates (0.07%) exhibited decreased susceptibility to linezolid (MIC, ≥8 μg/ml), 18 (0.09%) to daptomycin (MIC, ≥2 μg/ml), and 369 (1.9%) to vancomycin (MIC, ≥2 μg/ml; 368 isolates at 2 μg/ml and 1 at 4 μg/ml). Fifty-one (1.6%) CoNS were linezolid resistant (MIC, ≥8 μg/ml), and four (0.12%) were daptomycin nonsusceptible (MIC, ≥2 μg/ml). Ceftaroline was very active against S. aureus overall (MIC_50/90, 0.5/1 μg/ml; 98.5% susceptible), including MRSA (MIC_50/90, 0.5/1 μg/ml; 97.2% susceptible). All daptomycin-nonsusceptible and 85.7% of linezolid-resistant S. aureus isolates were susceptible to ceftaroline. Against S. aureus isolates with a vancomycin MIC of ≥2 μg/ml, 91.9, 96.2, and 98.9% were susceptible to ceftaroline, daptomycin, and linezolid, respectively. CoNS strains were susceptible to ceftaroline (MIC_50/90, 0.25/0.5 μg/ml; 99.1% inhibited at ≤1 μg/ml), including methicillin-resistant (MIC_50/90, 0.25/0.5 μg/ml), linezolid-resistant (MIC_50/90, 0.5/0.5 μg/ml), and daptomycin-nonsusceptible (4 isolates; MIC range, 0.03 to 0.12 μg/ml) strains. In conclusion, ceftaroline demonstrated potent in vitro activity against staphylococci with reduced susceptibility to linezolid, daptomycin, or vancomycin, and it may represent a valuable treatment option for infections caused by these multidrug-resistant staphylococci.     

The mecA Homolog mecC Confers Resistance against β-Lactams in Staphylococcus aureus Irrespective of the Genetic Strain Background

In staphylococci, methicillin resistance is mediated by mecA-encoded penicillin-binding protein 2a (PBP2a), which has a low affinity for beta-lactams. Recently, a novel PBP2a homolog was described as being encoded by mecC, which shares only 70% similarity to mecA. To prove that mecC is the genetic determinant that confers methicillin resistance in Staphylococcus aureus, a mecC knockout strain was generated. The S. aureus ΔmecC strain showed considerably reduced oxacillin and cefoxitin MICs (0.25 and 4 μg/ml, respectively) compared to those of the corresponding wild-type methicillin-resistant S. aureus (MRSA) strain (8 and 16 μg/ml, respectively). Complementing the mutant in trans with wild-type mecC restored the resistance to oxacillin and cefoxitin. By expressing mecC and mecA in different S. aureus clonal lineages, we found that mecC mediates resistance irrespective of the genetic strain background, yielding oxacillin and cefoxitin MIC values comparable to those with mecA. In addition, we showed that mecC expression is inducible by oxacillin, which supports the assumption that a functional beta-lactam-dependent regulatory system is active in MRSA strains possessing staphylococcal cassette chromosome mec (SCCmec) type XI. In summary, we showed that mecC is inducible by oxacillin and mediates beta-lactam resistance in SCCmec type XI-carrying strains as well as in different S. aureus genetic backgrounds. Furthermore, our results could explain the comparatively low MICs for clinical mecC-harboring S. aureus isolates.     

Activity of Debio1452, a FabI Inhibitor with Potent Activity against Staphylococcus aureus and Coagulase-Negative Staphylococcus spp., Including Multidrug-Resistant Strains

Staphylococcus aureus and coagulase-negative staphylococci (CoNS) are responsible for a wide variety of human infections. The investigational antibacterial Debio1450 (previously AFN-1720), a prodrug of Debio1452 (previously AFN-1252), specifically targets staphylococci without significant activity against other Gram-positive or Gram-negative species. Debio1452 inhibits FabI, an enzyme critical to fatty acid biosynthesis in staphylococci. The activity of Debio1452 against CoNS, methicillin-susceptible S. aureus (MSSA), and methicillin-resistant S. aureus (MRSA), including significant clones, was determined. A globally diverse collection of 574 patient isolates from 35 countries was tested that included CoNS (6 species, 103 strains), MSSA (154 strains), MRSA (163 strains), and molecularly characterized strains (including spa-typed MRSA clones; 154 strains). The isolates were tested for susceptibility by CLSI broth microdilution methods against Debio1452 and 10 comparators. The susceptibility rates for the comparators were determined using CLSI and EUCAST breakpoint criteria. All S. aureus and CoNS strains were inhibited by Debio1452 concentrations of ≤0.12 and ≤0.5 μg/ml, respectively. The MIC₅₀s for MSSA, MRSA, and molecularly characterized MRSA strains were 0.004 μg/ml, and the MIC₉₀s ranged from 0.008 to 0.03 μg/ml. The MICs were higher for the CoNS isolates (MIC_50/90, 0.015/0.12 μg/ml). Among S. aureus strains, resistance was common for erythromycin (61.6%), levofloxacin (49.0%), clindamycin (27.6%), tetracycline (15.7%), and trimethoprim-sulfamethoxazole (7.0%). Debio1452 demonstrated potent activity against MSSA, MRSA, and CoNS. Debio1452 showed significantly greater activity overall (MIC₅₀, 0.004 μg/ml) than the other agents tested against these staphylococcal species, which included dominant MRSA clones and strains resistant to currently utilized antimicrobial agents.     

In vitro evaluation of AZD2563, a novel oxazolidinone,against 603 recent staphylococcal isolates

AZD2563, a novel oxazolidinone, and a selection of comparator drugs that included linezolid, erythromycin, clindamycin, quinolones, and gentamicin were tested against 384 Staphylococcus aureus (176 oxacillin-resistant S. aureus [ORSA]) and 219 coagulase-negative staphylococci (CoNS; 162 oxacillin resistant) by reference microdilution (all strains) and agar dilution (30 strains) methods. The following results were noted for AZD2563. (Note that, for comparison only, a breakpoint of < or =4 microg/ml [the breakpoint of linezolid] was used for this study, although a susceptibility breakpoint for AZD2563 has not been determined.) For S. aureus, the MIC at which 50% of the isolates tested are inhibited (MIC(50)) was 1 microg/ml, the MIC(90) was 2 microg/ml, and the percent susceptibility was 100%. For CoNS, the MIC(50) was 0.5 microg/ml, the MIC(90) was 1 microg/ml, and the percent susceptibility was 100%. ORSA and OR-CoNS strains were equally inhibited by AZD2563 and linezolid. AZD2563 demonstrated antistaphylococcal activity comparable to that of linezolid.     

Oxacillin susceptibility testing of Staphylococcus saprophyticus using disk diffusion, agar dilution, broth microdilution, and the Vitek GPS-105 card

Eighty-three mecA negative isolates of S. saprophyticus had oxacillin zone diameters ≤ 15 mm or MICs ranging from ≤ 0.25–1.0 μg/ml when tested by either agar dilution, broth microdilution, or the Vitek GPS-105 card. Greater than 90% of these isolates would be considered resistant using NCCLS M7-A5, M100-S10 criteria. These results suggest that the current NCCLS MIC and zone diameter breakpoints for oxacillin resistance in coagulase-negative Staphylococci are not appropriate for S. saprophyticus as they do not correlate with the presence of the mecA gene.     

A comparative evaluation of phenotypic and molecular methods for the detection of oxacillin resistance in coagulase-negative staphylococci

Detection of oxacillin resistance in coagulase-negative staphylococci (C-NS) by phenotypic methods is often difficult. The present study compared the National Committee for Clinical Laboratory Standards (NCCLS) revised guidelines of phenotypic methods with a mecA-based polymerase chain reaction (PCR) for C-NS. Ninety clinical C-NS isolates were tested for oxacillin resistance by disk diffusion (1-µg disk), minimum inhibitory concentration (MIC) breakpoint (0.5µg/ml) after 24h, and mecA-based PCR. The sensitivity and specificity of disk diffusion was 80% and 93%, and the sensitivity and specificity of the MIC breakpoint after 24h was 84% and 91%, respectively, against PCR as gold standard. Eleven strains (7 mecA-positive and 4 mecA-negative) showed discordant results between MIC breakpoint after 24h and PCR. Six of the 7 mecA-positive and all 4 mecA-negative discordant strains had inducible oxacillin resistance and -lactamase hyperproduction, respectively. The present study concludes that inducible oxacillin resistance and -lactamase hyperproduction are the major causes of discordant results between phenotypic methods and mecA-based PCR, and need special attention.     

Phenotypic detection of mec A-positive staphylococcal blood stream isolates: High accuracy of simple disk diffusion tests

Detection of oxacillin-resistance in staphylococci by phenotypic methods remains problematic. Although standardized susceptibility test methods are adequate for Staphylococcus aureus, many are less satisfactory for the coagulase-negative staphylococci (CNS). We have studied 108 consecutive blood culture isolates of staphylococci. The mec A gene was detected by PCR in one S. aureus and 55 CNS isolates. Susceptibility testing was performed as follows: oxacillin (1-μg), ceftizoxime (30-μg), and cephalothin (30-μg) by disk diffusion; oxacillin, ceftizoxime, cephalothin, methicillin, ampicillin, ampicillin/sulbactam, penicillin, cefazolin, imipenem, and meropenem by the broth microdilution method. In addition, isolates were tested by the oxacillin agar screen plate method. The single oxacillin-resistant S. aureus strain was detected by all oxacillin susceptibility test methods and by the ceftizoxime disk and MIC methods. Two oxacillin-susceptible S. aureus were intermediate (minor error) by ceftizoxime broth microdilution (MIC, 16 μg/mL). The most sensitive, simple phenotypic methods for detection of oxacillin-resistant CNS (mec A positive) were as follows: oxacillin disk diffusion at 98%, oxacillin screen plate at 91%, oxacillin broth microdilution at 87%, ceftizoxime disk diffusion at 100%, ceftizoxime broth microdilution at 87%, and methicillin broth microdilution at 83%. These results indicate that oxacillin and ceftizoxime disk diffusion tests are the most accurate phenotypic methods in routine clinical use for detection of oxacillin-resistant CNS. Oxacillin broth microdilution MIC testing (2% NaCl supplement) would perform more satisfactorily (100% sensitivity) with an adjusted interpretive breakpoint at ⩽0.5 μg/mL, in contrast to the lower accuracy of the “so-called” reference agar screen test.     

A Triazine Dye, Cibacron Blue F3GA, Decreases Oxacillin Resistance Levels in Methicillin-Resistant Staphylococcus aureus

Cibacron blue F3GA (CB) was found to reduce the MIC of oxacillin for methicillin-resistant Staphylococcus aureus (MRSA). This effect was not observed with methicillin-susceptible S. aureus. CB alters the resistance level of MRSA through a factor(s) other than mecA-related products, major autolysins, or femAB products. The exact target(s) of CB in causing the effect is unknown.     

Antimicrobial resistance and persistence of Staphylococcus epidermidis clones in a Brazilian university hospital

Oxacillin is an alternative for the treatment of Staphylococcus spp. infections; however, resistance to this drug has become a major problem over recent decades. The main objective of this study was to epidemiologically characterize coagulase-negative staphylococci (CoNS) strains recovered from blood of patients hospitalized in a Brazilian teaching hospital. Oxacillin resistance was analyzed in 160 strains isolated from blood culture samples by phenotypic methods, detection of the mecA gene, and determination of intermediate sensitivity to vancomycin on brain heart infusion agar supplemented with 4 and 6 μg/mL vancomycin. In addition, characterization of the epidemiological profile by staphylococcal cassette chromosome mec (SCCmec) typing and clonal analysis by pulsed-field gel electrophoresis (PFGE) were performed. The mecA gene was detected in 72.5% of the isolates. Methicillin-resistant CoNS isolates exhibited the highest minimum inhibitory concentrations and multiresistance when compared to methicillin-susceptible CoNS strains. Typing classified 32.8% of the isolates as SCCmec I and 50% as SCCmec III. PFGE typing of the SCCmec III Staphylococcus epidermidis isolates identified 6 clones disseminated in different wards that persisted from 2002 to 2009. The high oxacillin resistance rates found in this study and clonal dissemination in different wards highlight the importance of good practices in nosocomial infection control and of the rational use of antibiotic therapy in order to prevent the dissemination of these clones.     

An international activity and spectrum analysis of linezolid: ZAAPS Program results for 2011

Through a continuing resistance surveillance monitoring program, linezolid was shown to maintain its spectrum and potency against a collection of 8059 clinically relevant Gram-positive strains collected from patients at 79 medical centers in 33 countries and Hong Kong. Linezolid MIC₉₀ values were 2 μg/mL for methicillin-resistant and -susceptible Staphylococcus aureus and enterococci, and the MIC₉₀ value was 1 μg/mL for coagulase-negative staphylococci (CoNS), β-hemolytic streptococci, Streptococcus pneumoniae, and viridans group streptococci. Reference broth microdilution susceptibility testing for linezolid demonstrated a 99.83% susceptibility rate for all organisms. All S. aureus were inhibited by ≤2 μg/mL. Three (0.3%) of 928 strains of CoNS had a linezolid MIC of 4 μg/mL and contained the cfr resistance gene; 1 also had a mutation in L3. There were 14 linezolid-resistant strains detected from 7 countries (Brazil [5], France [1], Germany [2] Greece [2], Italy [2], Ireland [1], and Spain [1]) representing 5 species (E. faecium, S. capitis, S. epidermidis, S. hominis, S. lugdenensis). A mobile cfr gene was noted in 2 species having elevated linezolid MIC values; one was a S. haemolyticus isolate with a MIC at 4 μg/mL. Resistance rates were as follows for the 6 groups of organisms sampled in the 2011 ZAAPS Program: CoNS, 1.2%; enterococci, 0.39%; among S aureus, S. pneumoniae, viridans group streptococci, and β-hemolytic streptococci, no resistance was detected. As the activities of commonly used antimicrobials continue to be compromised by evolving resistance mechanisms in Gram-positive pathogens, linezolid-resistant strains remain uncommon and without increasing occurrence.     

In vitro activity of tedizolid against clinical isolates of Staphylococcus lugdunensis and Staphylococcus haemolyticus from Europe and the United States

Staphylococcus lugdunensis and Staphylococcus haemolyticus are unique among CoNS in that the former often causes aggressive disease, while the latter consistently exhibits high rates of multidrug resistance. We evaluated the in vitro susceptibility of contemporary (2012–2013) isolates from both pathogens to tedizolid and comparators, using standard methodology. Results were interpreted using CLSI and EUCAST breakpoints. Overall, 106 S. lugdunensis and 103 S. haemolyticus isolates were collected from 51 medical centers in the United States and 30 centers in 18 European countries. Tedizolid showed good activity against S. lugdunensis (MIC₅₀/MIC₉₀: 0.12/0.12?mg/L) and S. haemolyticus (MIC₅₀/MIC₉₀: 0.12/0.12?mg/L), inhibiting all isolates at MIC ≤0.25?mg/L. Based on the EUCAST breakpoint for staphylococci and when substituting the CLSI breakpoint for Staphylococcus aureus, all isolates were tedizolid susceptible. All isolates were also susceptible to linezolid, but the in vitro potency of tedizolid was 4-fold greater than that of linezolid against both S. lugdunensis and S. haemolyticus, based on MIC₉₀ values. S. lugdunensis exhibited ≥99% susceptibility to vancomycin, teicoplanin, gentamicin, levofloxacin, and trimethoprim-sulfamethoxazole; 7% of isolates were resistant to tetracycline, 11% to clindamycin, and 2% were methicillin-resistant. S. haemolyticus exhibited high rates of resistance to commonly used anti-staphylococcal agents: 71% of isolates were resistant to methicillin, 36%–37% to clindamycin, and 30%–50% to gentamicin. These in vitro findings suggest that tedizolid could be an alternative treatment option for infections due to these medically important CoNS pathogens. Additional clinical evaluation and continued surveillance of tedizolid in vitro activity against S. lugdunensis and S. haemolyticus are warranted.     

Use of In Vitro Vancomycin Testing Results To Predict Susceptibility to Oritavancin,a New Long-Acting Lipoglycopeptide

Oritavancin is a recently approved lipoglycopeptide antimicrobial agent with activity against Gram-positive pathogens. Its extended serum elimination half-life and concentration-dependent killing enable single-dose treatment of acute bacterial skin and skin structure infections. At the time of regulatory approval, new agents, including oritavancin, are not offered in the most widely used susceptibility testing devices and therefore may require application of surrogate testing using a related antimicrobial to infer susceptibility. To evaluate vancomycin as a predictive susceptibility marker for oritavancin, 26,993 recent Gram-positive organisms from U.S. and European hospitals were tested using reference MIC methods. Organisms included Staphylococcus aureus, coagulase-negative staphylococci (CoNS), beta-hemolytic streptococci (BHS), viridans group streptococci (VGS), and enterococci (ENT). These five major pathogen groups were analyzed by comparing results with FDA-approved susceptible breakpoints for both drugs, as well as those suggested by epidemiological cutoff values and supported by pharmacokinetic/pharmacodynamic analyses. Vancomycin susceptibility was highly accurate (98.1 to 100.0%) as a surrogate for oritavancin susceptibility among the indicated pathogen species. Furthermore, direct MIC comparisons showed high oritavancin potencies, with vancomycin/oritavancin MIC₉₀ results of 1/0.06, 2/0.06, 0.5/0.12,1/0.06, and >16/0.06 μg/ml for S. aureus, CoNS, BHS, VGS, and ENT, respectively. In conclusion, vancomycin demonstrated acceptable accuracy as a surrogate marker for predicting oritavancin susceptibility when tested against the indicated pathogens. In contrast, 93.3% of vancomycin-nonsusceptible enterococci had oritavancin MIC values of ≤0.12 μg/ml, indicating a poor predictive value of vancomycin for oritavancin resistance against these organisms. Until commercial oritavancin susceptibility testing devices are readily available, isolates that when tested show vancomycin susceptibility can be inferred to be susceptible to oritavancin by using FDA-approved breakpoints.     

Update on the telavancin activity tested against European staphylococcal clinical isolates (2009-2010)

This study evaluated telavancin activity against 3868 Staphylococcus aureus and 1003 coagulase-negative staphylococci (CoNS) collected from 33 European hospitals (2009-2010). Studies of telavancin potency included analysis of strains with decreased susceptibility to glycopeptides. Telavancin (MIC_50/90, 0.12/0.25 μg/mL) showed high activity against S. aureus and CoNS, regardless of the stratification analysis performed (year sampled, infection source, or methicillin susceptibility). In addition, telavancin (MIC_50/90, 0.25/0.5 μg/mL) retained activity against S. aureus isolates with higher vancomycin (MIC, 2 μg/mL) or teicoplanin (MIC, 2-8 μg/mL) MIC results. Overall, telavancin exhibited higher potency (at least 2-fold greater) than tested comparators (vancomycin, daptomycin, and linezolid) against European staphylococci. Alongside published clinical data, the telavancin in vitro activity observed against these pathogens supports this drug as an option for treating S. aureus infections in Europe, including those infections caused by strains with decreased susceptibility to vancomycin and/or teicoplanin.     

In Vitro Evaluation of Sparfloxacin Activity and Spectrum Against 24,940 Pathogens Isolated in the United States and Canada,the Final Analysis

Sparfloxacin, a recently marketed oral fluoroquinolone, was tested against 24,940 recent clinical strains isolated from blood stream and respiratory tract cultures at 187 hospitals in the USA and Canada. Sparfloxacin activity was compared with 5 to 13 antimicrobial agents using either Etest (AB BIODISK, Solna, Sweden) and a reference broth microdilution or a standardized disk diffusion method. When applying recommended MIC breakpoint criteria of sparfloxacin susceptibility (≤0.5 μg/mL) for Streptococcus pneumoniae (4,410 strains) and other Streptococcus spp. (554 isolates), 93% and 88% were inhibited, respectively. Furthermore, at ≤1 μg/mL sparfloxacin susceptibility rates for streptococci increased to 98% overall and 99.3% for S. pneumoniae. In contrast, only 46% and 68% of pneumococci were susceptible to ciprofloxacin (MIC₉₀, 3 μg/mL; susceptible at ≤1 μg/mL) and penicillin (MIC₉₀, 1.5 μg/mL; susceptible at ≤0.06 μg/mL), respectively. Differences between regions in the USA for rates of penicillin-resistant pneumococcal strains were observed (greatest resistances in southeast and midwest), but results indicate that the sparfloxacin potency was not adversely influenced (MIC₉₀, 0.5 μg/mL). Also pneumococcal isolates from the lower respiratory tract were more resistant to penicillin and other β-lactams. Nearly all Haemophilus species and Moraxella catarrhalis strains, including those harboring β-lactamases, were susceptible to tested fluoroquinolones (sparfloxacin, ciprofloxacin), amoxicillin/clavulanic acid, and newer oral cephalosporins. Sparfloxacin was very active against oxacillin-susceptible Staphylococcus aureus (MIC₉₀, 0.12 μg/mL; 96–97% susceptible), Klebsiella spp. (MIC₉₀ 0.12 μg/mL), and other tested enteric bacilli (92–95% susceptible). Comparisons between the broth microdilution MIC and disk diffusion interpretive results demonstrated excellent intermethod susceptibility category agreement (>95%) using current sparfloxacin breakpoints, but some compounds (cefpodoxime disk diffusion tests for S. aureus) may require modifications. These results demonstrate that new Gram-positive focused fluoroquinolones (sparfloxacin) possess an excellent in vitro activity and spectrum against pathogens that cause respiratory tract infections. This spectrum of activity includes strains resistant to other antimicrobial classes, including the oral cephalosporins, macrolides, amoxicillin/clavulanic acid, and earlier fluoroquinolones (ciprofloxacin, ofloxacin). Overall, sparfloxacin inhibited 89% to nearly 100% of the isolates (species variable) tested against those species against which it has Food and Drug Administration indications for clinical use.     

Revised interpretation of oxacillin MICs for Staphylococcus epidermidis based on mecA detection.

In 1992 and 1993, at The Ohio State University Medical Center, a larger proportion of Staphylococcus epidermidis strains required oxacillin MICs of 1 to 2 micrograms/ml than did Staphylococcus aureus strains. mecA genotype was correlated with antimicrobial susceptibility for selected clinical S. epidermidis strains. All 14 strains that required oxacillin MICs of < or = 0.25 microgram/ml and 2 of 5 strains that required oxacillin MICs of 0.5 microgram/ml were susceptible by 1-microgram oxacillin disk test and were mecA negative. Three of 5 strains that required oxacillin MICs of 0.5 microgram/ml and all 18 strains that required oxacillin MICs of > or = 1.0 microgram/ml were resistant by oxacillin disk test and were mecA positive. Current National Committee for Clinical Laboratory Standards MIC interpretive criteria may underestimate methicillin resistance among S. epidermidis strains.     

Antimicrobial activity of daptomycin in comparison to glycopeptides and other antimicrobials when tested against numerous species of coagulase-negative Staphylococcus

Coagulase-negative Staphylococcus spp. (CoNS) represent a major cause of bloodstream infections, especially in patients with prosthetic devices and intravenous catheters. We evaluated the activity of daptomycin in comparison to vancomycin and teicoplanin against a large collection of 22,024 CoNS isolates causing clinically significant infections from 283 medical centers over 9 years (2002-2010) and tested for susceptibility by broth microdilution methods against daptomycin and numerous comparators. Overall, daptomycin (MIC(50/90), 0.25/0.5 μg/mL) inhibited 99.8% of CoNS at the susceptible breakpoint of ≤1 μg/mL and was 4- to 16-fold more active than vancomycin (MIC(50/90), 1/2 μg/mL; >99.9% susceptible). All species showed ≥99.6% susceptibility to daptomycin, except Staphylococcus auricularis (95.1%), S. capitis (99.0%), S. warneri (98.8%), and S. sciuri. S.sciuri represented only 0.2% of the collection (46 strains) and exhibited decreased susceptibility to daptomycin (MIC(50/90), 1/2 μg/mL; 71.7% susceptible). In contrast, S. sciuri exhibited high susceptibility to vancomycin and teicoplanin (highest MIC at 2 μg/mL for both drugs). In summary, daptomycin exhibited species-specific activity among CoNS, especially versus S. sciuri. No correlation between decreased susceptibility to daptomycin and the glycopeptides tested was observed.     

Evaluation of alternative disk diffusion methods for detecting mecA-mediated oxacillin resistance in an international collection of staphylococci: validation report from the SENTRY Antimicrobial Surveillance Program

To validate the current National Committee for Clinical Laboratory Standards recommendations of the cefoxitin disk as a preferred surrogate marker to detect oxacillin resistance in staphylococcal isolates, 304 staphylococcal isolates originating from 49 sites in 16 countries in the SENTRY Antimicrobial Surveillance Program (2003) were tested. Two hundred three Staphylococcus aureus and 101 coagulase-negative staphylococci (CoNS), of which >95% were bloodstream isolates, were evaluated by comparing the results of the National Committee for Clinical Laboratory Standards broth microdilution method for oxacillin with those of the disk diffusion test using oxacillin, cefoxitin and ceftizoxime disks. Discrepancies were resolved using the PBP2a latex agglutination test. For S. aureus, the cefoxitin disk performed without interpretive error followed by the ceftizoxime disk (1% major and 0.5% minor errors; > or =20 mm = susceptible); use of the oxacillin disk test had the highest error rates with 4.4% major and 1.5% minor errors, whereas the oxacillin minimal inhibitory concentration (MIC) test was 99.0% accurate. For CoNS, the oxacillin disk test had the highest error rate with 4.0% major errors, followed by the cefoxitin (3.0% major error rate) and the ceftizoxime (1% very major and 1% minor error: > or =20 mm = susceptible) disk tests. The oxacillin MIC test was also 99.0% accurate for CoNS testing. Modification of the ceftizoxime disk diffusion breakpoints for CoNS resulted in complete intermethod categorical agreement. The overall accuracy of the four tests was as follows: modified ceftizoxime disk (99.3%) > oxacillin MIC = cefoxitin disk (99.0%) > current ceftizoxime disk (98.4%) > oxacillin disk (94.7%). In conclusion, these results confirm the superior performance characteristics of cefoxitin and ceftizoxime disk tests as surrogate markers to detect oxacillin resistance; by using an international collection of clinically significant staphylococcal isolates, we also demonstrate its wide global application.     

Fatal sepsis caused by mecA-positive oxacillin-susceptible Staphylococcus aureus: First report in a tertiary hospital of southern Brazil

mecA-positive oxacillin phenotypically susceptible Staphylococcus aureus (OS-MRSA) is increasingly reported worldwide. This bacterium poses a therapeutic threat, as it can be misidentified as an oxacillin-susceptible organism by phenotypic methods that are routinely used in the majority of clinical microbiology laboratories. Herein, we report the first case of fatal sepsis in a 43-year-old female patient caused by an OS-MRSA SCCmec type IVa/ST1/CC1 in a tertiary hospital in southern Brazil, which highlights the difficulties involved in diagnosing this bacterium. Blood cultures and phenotypic susceptibility tests on admission yielded a penicillin-resistant S. aureus. Although vancomycin therapy was initiated, this antibacterial was replaced by oxacillin, based on the susceptibility result. However, the clinical conditions of the patient deteriorated rapidly evolving to fatal septic shock. Clinical microbiology laboratories should consider the use of additional tests to accurately distinguish between various antimicrobial phenotypes of S. aureus.