Metagenomic next-generation sequencing and microbial cell-free DNA testing can enhance pathogen detection in culture-negative cardiovascular infections, requiring careful clinical interpretation.
Does metagenomic next-generation sequencing improve pathogen detection in patients with culture-negative cardiovascular infections?
Metagenomic next-generation sequencing and mcfDNA testing offer a promising diagnostic adjunct for identifying pathogens in culture-negative cardiovascular infections, requiring careful clinical interpretation.
Cardiovascular infections, including those involving native and prosthetic heart valves, implantable cardiac devices, mechanical circulatory assist devices, and vascular grafts, are associated with significant morbidity and mortality risks. Optimal management of these complex infections requires pathogen-directed antimicrobial therapy. However, standard culture-based methods often fail to identify causative organisms due to prior antimicrobial use, infections due to fastidious organisms, or biofilm-associated infections. Emerging evidence suggests that microbial cell-free DNA (mcfDNA) and metagenomic testing can enhance pathogen detection, particularly in culture-negative cases. However, their results require careful clinical interpretation, often necessitating input from infectious diseases specialists. In this review, we examine published evidence regarding metagenomic testing for cardiovascular infections and its impact on patient care. We propose a framework for microbiological adjudication of mcfDNA results, introduce standardized definitions for clinical impact assessment, and provide guidance on integrating mcfDNA testing into diagnostic evaluation of patients with culture-negative cardiovascular infections.
Khalil et al. (Fri,) conducted a review in Culture-negative cardiovascular infections. Metagenomic next-generation sequencing (mcfDNA testing) vs. Standard culture-based methods was evaluated. Metagenomic next-generation sequencing and microbial cell-free DNA testing can enhance pathogen detection in culture-negative cardiovascular infections, requiring careful clinical interpretation.