Summary
Some human Plasmodium falciparum parasites, but not others, cause malaria in Aotus monkeys. To identify the basis for this variation, we crossed two clones that differ in A. nancymaae virulence and mapped inherited traits of infectivity to erythrocyte invasion by linkage analysis. A major pathway of invasion was linked to polymorphisms in a newly-identified erythrocyte binding protein, PfRH5, found in the apical region of merozoites. Polymorphisms of PfRH5 from the A. nancymaae-virulent parent (GB4) transformed the non-virulent parent (7G8) to a virulent parasite. Conversely, replacements that removed these polymorphisms from PfRH5 converted a virulent progeny clone (LC12) to a non-virulent parasite. A proteolytic fragment of PfRH5 from the infective parasites bound to A. nancymaae erythrocytes. Our results also suggest that PfRH5 is a parasite ligand for human infection, and that amino acid substitutions can cause its binding domain to recognize different human erythrocyte surface receptors.
We describe traditional antimicrobial stewardship program (ASP) activities with a discussion of how these activities can be refocused in the setting of the COVID-19 pandemic. Additionally, we discuss possible adverse consequences of ASP attention diversion on COVID-19 response efforts and overall implications for future pandemic planning. We also discuss ASP in collaboration with other groups within health systems and how COVID-19 may affect these relationships long term. Despite the paucity of literature on Antimicrobial Stewardship and COVID-19, the potential contributions of ASPs during a pandemic are numerous. ASPs can develop strategies to identify patients with COVID-19-like-illness; this is particularly useful when these patients are missed at the time of health system entry. ASPs can also play a critical role in the management of potential drug shortages, developing local treatment guidelines, optimizing the use of antibiotics, and in the diagnostic stewardship of COVID-19 testing, among other roles. Importantly, it is often difficult to ascertain whether critically ill patients who are hospitalized with COVID-19 have concurrent or secondary bacterial infections-ASPs are ideally situated to help optimize antimicrobial use for these patients via a variety of mechanisms. ASPs are uniquely positioned to aid in pandemic response planning and relief efforts. ASPs are already integrated into health systems and play a key role in optimizing antimicrobial prescribing. As ASPs assist in COVID-19 response, understanding the role of ASPs in pandemic relief efforts may mitigate damage from future outbreaks.
The healthcare setting is predisposed to harbor potential pathogens, which in turn can pose a great risk to patients. Routine cleaning of the patient environment is critical to reduce the risk of hospital-acquired infections. While many approaches to environmental cleaning exist, manual cleaning supplemented with ongoing assessment and feedback may be the most feasible for healthcare facilities with limited resources.
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