全球感染性微生物及其对抗菌药物耐药性的综合多层次监测。
Integrated Multilevel Surveillance of the World's Infecting Microbes and Their Resistance to Antimicrobial Agents.
机构信息
The World Health Organization Collaborating Centre for Surveillance of Antimicrobial Resistance, Department of Medicine, Brigham and Women's Hospital and Harvard Medical School, Boston, Massachusetts, USA.
出版信息
Clin Microbiol Rev. 2011 Apr;24(2):281-95. doi: 10.1128/CMR.00021-10.
Abstract
Microbial surveillance systems have varied in their source of support; type of laboratory reporting (patient care or reference); inclusiveness of reports filed; extent of microbial typing; whether single hospital, multihospital, or multicountry; proportion of total medical centers participating; and types, levels, integration across levels, and automation of analyses performed. These surveillance systems variably support the diagnosis and treatment of patients, local or regional infection control, local or national policies and guidelines, laboratory capacity building, sentinel surveillance, and patient safety. Overall, however, only a small fraction of available data are under any surveillance, and very few data are fully integrated and analyzed. Advancing informatics and genomics can make microbial surveillance far more efficient and effective at preventing infections and improving their outcomes. The world's microbiology laboratories should upload their reports each day to programs that detect events, trends, and epidemics in communities, hospitals, countries, and the world.
摘要
微生物监测系统在其支持来源、实验室报告类型(患者护理或参考)、报告涵盖范围、微生物分型程度、单家医院、多家医院或多国、参与的医疗中心总数比例以及分析的类型、水平、跨水平整合和自动化方面各不相同。这些监测系统在不同程度上支持患者的诊断和治疗、本地或区域感染控制、本地或国家政策和指南、实验室能力建设、哨点监测以及患者安全。然而,总体而言,只有一小部分可用数据受到任何监测,并且很少有数据得到完全整合和分析。推进信息学和基因组学可以使微生物监测在预防感染和改善感染结果方面更加高效和有效。世界上的微生物学实验室应该每天将报告上传到程序中,以检测社区、医院、国家和全球的事件、趋势和疫情。
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