An Epidemiologic Study of Bacterial Culture and Antibiotic Susceptibility Analyses in Captive Macaques and Marmosets at the Wisconsin National Primate Research Center.

Antimicrobial resistance (AMR) represents a growing public health threat that arises at the interface between animal, human, and environmental health. Although the pathways promoting the development of AMR are well characterized in human health settings, data within the veterinary medical world are less abundant, particularly from fields focusing on nontraditional species, such as nonhuman primates (NHPs). The purpose of this study was to describe trends in sample submission for bacterial culture, characterize patterns of microbial growth and any changes in AMR and susceptibility over time, and inform best practices for veterinary antimicrobial stewardship in a captively-housed, indoor NHP colony. Electronic health records from the Wisconsin National Primate Research Center were analyzed across a 10-y period using SAS Studio. There was an increasing pattern of sample submissions for culture and susceptibility analyses, with no corresponding increases in resistance to relevant antibiotics for potential zoonotic pathogens, such as Escherichia coli or Shigella species. Trends are suggestive of appropriate antimicrobial stewardship practices that were responsive to the medical needs of Wisconsin National Primate Research Center animals, as well as the needs of the larger research community at the University of Wisconsin-Madison. These findings can inform veterinary professionals working with NHPs and contribute to the growing body of literature surrounding AMR in nontraditional species.

A One Health Approach to Compare Self-Prescribed Antibiotic Use across Rural and Semi-urban Populations in San Lucas Tolimán, Guatemala.

Antimicrobial resistance resulting from antibiotic overuse represents an increasing public health challenge. The purpose of this study was to investigate antibiotic self-medication practices in a rural, indigenous Guatemalan population, and to compare self-prescribing patterns in rural and semi-urban populations using a One Health integrated approach, a framework acknowledging that health arises at the interface of humans, animals, and the environment. We conducted a mixed methods study using semi-structured interviews in and around San Lucas Tolimán, Guatemala. Antibiotic self-medication was common in both rural and semi-urban populations, regardless of demographic characteristics. Antibiotic usage in animals, while less common, almost always occurred without a veterinary consult. Although subjects recognized that self-medication could be harmful to health, they face significant barriers to accessing appropriate care. These patterns of use have impacts on the rise of antimicrobial resistance locally, and have the potential to contribute to the spread of such resistance globally.

Growth and adaptation of Zika virus in mammalian and mosquito cells.

The recent emergence of Zika virus (ZIKV) in the Americas coincident with increased caseloads of microcephalic infants and Guillain-Barre syndrome has prompted a flurry of research on ZIKV. Much of the research is difficult to compare or repeat because individual laboratories use different virus isolates, growth conditions, and quantitative assays. Here we obtained three readily available contemporary ZIKV isolates and the prototype Ugandan isolate. We generated stocks of each on Vero mammalian cells (ZIKVmam) and C6/36 mosquito cells (ZIKVmos), determined titers by different assays side-by-side, compared growth characteristics using one-step and multi-step growth curves on Vero and C6/36 cells, and examined plaque phenotype. ZIKV titers consistently peaked earlier on Vero cells than on C6/36 cells. Contemporary ZIKV isolates reached peak titer most quickly in a multi-step growth curve when the amplifying cell line was the same as the titering cell line (e.g., ZIKVmam titered on Vero cells). Growth of ZIKVmam on mosquito cells was particularly delayed. These data suggest that the ability to infect and/or replicate in insect cells is limited after growth in mammalian cells. In addition, ZIKVmos typically had smaller, more homogenous plaques than ZIKVmam in a standard plaque assay. We hypothesized that the plaque size difference represented early adaptation to growth in mammalian cells. We plaque purified representative-sized plaques from ZIKVmos and ZIKVmam. ZIKVmos isolates maintained the initial phenotype while plaques from ZIKVmam isolates became larger with passaging. Our results underscore the importance of the cells used to produce viral stocks and the potential for adaptation with minimal cell passages. In addition, these studies provide a foundation to compare current and emerging ZIKV isolates in vitro and in vivo.