Standardizing healthcare surface sampling requires the evaluation of sampling tools for organism adherence. Here, 7 sampling tools were evaluated to assess their elution efficiencies in the presence of 5 pathogens. Foam sponges (80.6%), microfiber wipes (80.5%), foam swabs (77.9%), and cellulose sponges (66.5%) yielded the highest median elution efficiencies.

Vaginal microbicides containing antiretrovirals (ARV) have shown to prevent vaginally acquired HIV but these products may not protect women who engage in anal sex. Intravaginal dosing with ARVs have shown to result in drug exposures in rectal tissues, thus raising the possibility of dual compartment protection. To test this concept, we investigated whether intravaginal dosing with emtricitabine (FTC)-tenofovir (TFV) gel, which fully protected macaques against repeated vaginal exposures to simian human immunodeficiency virus (SHIV), protects against rectal SHIV exposures. Pharmacokinetic (PK) studies revealed rapid distribution of FTC and TFV to rectal tissues and luminal fluids, albeit at concentrations 1-2 log10 lower than those in the vaginal compartment. Efficacy measurements against repeated rectal SHIV challenges demonstrated a 4.5-fold reduction in risk of infection in macaques that received intravaginal FTC/TFV compared to placebo gel (p=0.047; log-rank test). These data support the concept of dual compartment protection by vaginal dosing and warrants developing ARV-based vaginal products with improved bidirectional dosing.

The bacterial surfaceome, comprising outer membrane-sorted and/or associated (i.e., cell transporters), cell surface-exposed (i.e., adhesins) and extracellularly secreted proteins (i.e., toxins), has been characterized in bacterial pathogens, such as Bordetella pertussis (Bp) to provide information for use in development of diagnostic and prevention strategies. This protein subset has clinical significance, as these bacterial proteins are often associated with attachment to host cells, microbial pathogenesis and antibody-mediated immunity. Here we describe classical surface membrane protein enrichment techniques, followed by proteomic methodologies, such as gel-free protein separation and antibody-affinity capture technologies in combination with nano-liquid chromatography mass spectrometry, for the identification and characterization of Bp surfaceome proteins.