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

Emma L Svenson, J. Coonen, James E Svenson, Heather A Simmons, Jennifer M Hayes, Saverio Capuano
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Abstract

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.
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威斯康星国家灵长类动物研究中心对圈养猕猴和狨猴进行细菌培养和抗生素敏感性分析的流行病学研究。
抗菌药耐药性(AMR)是一个日益严重的公共卫生威胁,它出现在动物、人类和环境健康的交界处。虽然人类健康环境中促进 AMR 发展的途径已被充分描述,但兽医领域的数据却不那么丰富,尤其是来自非传统物种领域的数据,如非人灵长类动物 (NHP)。本研究的目的是描述细菌培养样本提交的趋势,描述微生物生长的模式以及随着时间推移 AMR 和敏感性的任何变化,并为圈养的室内 NHP 群落中兽医抗菌药管理的最佳实践提供信息。我们使用 SAS Studio 分析了威斯康星国家灵长类动物研究中心 10 年间的电子健康记录。提交的培养和药敏分析样本数量呈上升趋势,而潜在人畜共患病病原体(如大肠杆菌或志贺氏杆菌)对相关抗生素的耐药性却没有相应增加。这些趋势表明,威斯康星国家灵长类动物研究中心采取了适当的抗菌药物管理措施,以满足动物的医疗需求以及威斯康星大学麦迪逊分校广大研究社区的需求。这些研究结果可以为从事 NHPs 工作的兽医专业人员提供参考,并为围绕非传统物种 AMR 的不断增加的文献做出贡献。
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American Society of Laboratory Animal Practitioners Position Statement: Handling and Physical Restraint of Research Animals. American Society of Laboratory Animal Practitioners Position Statement: Definition of Animal Welfare. Effect of Novel High-fat Diet Feeding Methods on Food Wastage, Weight Gain, Hair Coat Grease Accumulation, and Scratching Behavior in C57BL/6NCrl Mice. Identification and Treatment of Fur Mites (Radfordia lemnina) in California Deer Mice (Peromyscus californicus) Using Selamectin. American Society of Laboratory Animal Practitioners Position Statement: Animal Care Principles.
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