Rapid Molecular Diagnostics for MDR Nosocomial Infections in ICUs: Integration with Prevention, Stewardship, and Novel Therapies.
Karina Cristina Marin, Stelian Adrian Ritiu, Adelina Băloi, Claudiu Rafael Barsac, Dorel Sandesc, Marius Papurica, Alexandru Florin Rogobete, Daiana Toma, Mirela Tamara Porosnicu, Ciprian Gindac, Madalina Butaș, Ovidiu Horea Bedreag
Abstract
Open AccessBackground/Objectives: Multidrug-resistant (MDR) nosocomial infections remain a major challenge in intensive care units (ICUs), where delays in diagnosis and suboptimal antimicrobial therapy significantly impact outcomes. This narrative review synthesizes international literature and local epidemiological data from Western Romania to examine the role of rapid molecular diagnostics in the management of MDR infections and their integration with prevention and antimicrobial stewardship (AMS) strategies. Methods: Evidence was collected through a narrative literature review using PubMed, WHO, and ECDC sources published between 2010 and 2025. Key terms included "rapid molecular diagnostics," "sepsis," "ICU," "UNYVERO," "GeneXpert," "BioFire," and "carbapenem resistance." Studies were selected based on clinical relevance to rapid diagnostics and MDR pathogens; no PRISMA-based systematic methodology was applied. Results: Diagnostic performance varies by platform and clinical syndrome. UNYVERO Hospitalized Pneumonia panel demonstrates a sensitivity range of 88.8-91.4% and specificity of 94.9-99.5% in respiratory infections, with a turnaround time of approximately 4-5 h. The GeneXpert Carba-R assay identifies major carbapenemases within 45-60 min with reported sensitivity 96-100% and specificity of 93-99%. BioFire® Pneumonia and Blood Culture Identification panels similarly provide rapid syndromic results within 1 h, enabling earlier optimization of antimicrobial therapy. Local ICU data from Western Romania identified a substantial burden of carbapenem-resistant Acinetobacter baumannii, underscoring the need for rapid resistance detection to guide therapy. Conclusions: Rapid molecular diagnostics, when integrated with prevention bundles and AMS programs, facilitate earlier targeted therapy, support responsible antimicrobial use, and improve clinical decision-making in MDR infections. Their value is amplified in settings with high resistance prevalence. Wider implementation, combined with surveillance and access to novel antimicrobials, is essential to improve outcomes in critically ill patients.