ABSTRACT
Bacterial bloodstream infections are a significant cause of global morbidity and mortality. Constrained by low bacterial burdens of 1-100 colony-forming-units per ml blood (CFU/ml), clinical diagnosis relies on lengthy culture amplification and isolation steps prior to identification and antibiotic susceptibility testing (AST). The resulting >60-h time to actionable treatment not only negatively impacts patient outcomes, but also increases the misuse and overuse of broad-spectrum antibiotics that accelerates the rise in multidrug resistant infections. Consequently, the development of novel technologies capable of rapidly recovering bacteria from blood-derived samples is crucial to human health. To address this need, we report a novel bacterial recovery technology from positive blood cultures that couples selective hemolysis with centrifugation through a sucrose cushion to perform rapid, background-free cytometric ASTs without long subculturing steps. Demonstrated on the most common bloodstream infection-causing bacteria: Escherichia coli, Pseudomonas aeruginosa, and Staphylococcus aureus, near-pure bacteria are rapidly recovered (≤15 min) with minimal user intervention. Susceptibilities of recovered bacteria are readily performed via high throughput flow cytometry with excellent agreement with much slower, standard microbroth dilution assays. Altogether, this novel direct-from-positive blood culture AST technology enables susceptibility determinations within as little as 5 h, post blood culture positivity.
