Novel developments in the treatment of acute bacterial skin and skin structure infections.

Introduction: Acute bacterial skin and skin structure infection (ABSSSI) represents a major burden for healthcare systems. The increased prevalence of Methicillin-resistant Staphylococcus aureus, combined with the limited availability of microbiologic data when treating ABSSSI, has led to a need for more convenient, less toxic anti-MRSA agents. Recent approvals have added several agents to the antibiotic armamentarium that provide an expanded spectrum of activity and ease of administration compared to older agents. Areas covered: In this review, the authors discuss updated approaches to the management of ABSSSI. They also provide a review of recent FDA approved antibiotics and emerging investigational agents for treatment of ABSSSI. Expert opinion: Several new antibiotic agents have received FDA approval through the revised guidance on ABSSSI clinical trials with advantages of activity against MRSA and ease of administration. In theory, this may translate to reducing the utilization of healthcare resources by allowing for earlier discharge and reducing the need for outpatient parenteral therapy. While the approval of new agents offers the opportunity to improve and simplify treatment of ABSSSI, it is more important now than ever to use these agents in a responsible manner.

Impact of rapid organism identification via matrix-assisted laser desorption/ionization time-of-flight combined with antimicrobial stewardship team intervention in adult patients with bacteremia and candidemia.

BACKGROUND: Integration of rapid diagnostic testing via matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) with antimicrobial stewardship team (AST) intervention has the potential for early organism identification, customization of antibiotic therapy, and improvement in patient outcomes. The objective of this study was to assess the impact of this combined approach on clinical and antimicrobial therapy-related outcomes in patients with bloodstream infections. METHODS: A pre-post quasi-experimental study was conducted to analyze the impact of MALDI-TOF with AST intervention in patients with bloodstream infections. The AST provided evidence-based antibiotic recommendations after receiving real-time notification following blood culture Gram stain, organism identification, and antimicrobial susceptibilities. Outcomes were compared to a historic control group. RESULTS: A total of 501 patients with bacteremia or candidemia were included in the final analysis: 245 patients in the intervention group and 256 patients in the preintervention group. MALDI-TOF with AST intervention decreased time to organism identification (84.0 vs 55.9 hours, P < .001), and improved time to effective antibiotic therapy (30.1 vs 20.4 hours, P = .021) and optimal antibiotic therapy (90.3 vs 47.3 hours, P < .001). Mortality (20.3% vs 14.5%), length of intensive care unit stay (14.9 vs 8.3 days) and recurrent bacteremia (5.9% vs 2.0%) were lower in the intervention group on univariate analysis, and acceptance of an AST intervention was associated with a trend toward reduced mortality on multivariable analysis (odds ratio, 0.55, P = .075). CONCLUSION: MALDI-TOF with AST intervention decreased time to organism identification and time to effective and optimal antibiotic therapy.