An Ex Vivo Model for Assessing Growth and Survivability of Staphylococcus aureus in Whole Human Blood.

Staphylococcus aureus is an important human pathogen that causes a plethora of diverse infections within the human host that range in severity from the relatively minor to the severe. Of note, bloodstream infections caused by this organism result in high mortality rates, often following failed rounds of surgical and antibiotic intervention. The capacity for S. aureus to exist in blood is driven by myriad virulence factors that engage in a manipulation of various host responses to evade destruction and ensure survival. These include both secreted elements, such as coagulase and von Willebrand factor protein, as well as surface displayed factors, including clumping factor A and fibronectin binding protein A. In addition to this, there are a number of other loci within the S. aureus genome whose products have been shown to contribute to blood survival by more indirect means. Accordingly, ex vivo whole human blood survival assays are often used as a preliminary study to investigate host-bacterial interactions in an effort to delineate the pathogenicity of S. aureus strains. Herein we provide a detailed assessment of the protocol required to perform such studies.