基于模型的监测：利用模拟模型评估暴发检测。

in silico surveillance: evaluating outbreak detection with simulation models.

机构信息

Social & Decision Informatics Laboratory, Virginia Tech Research Center, 900 N. Glebe Road, Arlington, VA 22203, USA.

出版信息

BMC Med Inform Decis Mak. 2013 Jan 23;13:12. doi: 10.1186/1472-6947-13-12.

DOI:10.1186/1472-6947-13-12

PMID:23343523

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3691709/

Abstract

BACKGROUND

Detecting outbreaks is a crucial task for public health officials, yet gaps remain in the systematic evaluation of outbreak detection protocols. The authors' objectives were to design, implement, and test a flexible methodology for generating detailed synthetic surveillance data that provides realistic geographical and temporal clustering of cases and use to evaluate outbreak detection protocols.

METHODS

A detailed representation of the Boston area was constructed, based on data about individuals, locations, and activity patterns. Influenza-like illness (ILI) transmission was simulated, producing 100 years of in silico ILI data. Six different surveillance systems were designed and developed using gathered cases from the simulated disease data. Performance was measured by inserting test outbreaks into the surveillance streams and analyzing the likelihood and timeliness of detection.

RESULTS

Detection of outbreaks varied from 21% to 95%. Increased coverage did not linearly improve detection probability for all surveillance systems. Relaxing the decision threshold for signaling outbreaks greatly increased false-positives, improved outbreak detection slightly, and led to earlier outbreak detection.

CONCLUSIONS

Geographical distribution can be more important than coverage level. Detailed simulations of infectious disease transmission can be configured to represent nearly any conceivable scenario. They are a powerful tool for evaluating the performance of surveillance systems and methods used for outbreak detection.

摘要

背景

对于公共卫生官员来说，发现疫情是一项至关重要的任务，但在系统评估疫情检测方案方面仍存在差距。作者的目标是设计、实施和测试一种灵活的方法，以生成详细的合成监测数据，提供病例的真实地理和时间聚类，并用于评估疫情检测方案。

方法

根据个人、地点和活动模式的数据，构建了一个详细的波士顿地区模型。模拟了流感样疾病（ILI）的传播，生成了 100 年的计算机模拟 ILI 数据。使用从模拟疾病数据中收集的病例设计和开发了六种不同的监测系统。通过将测试疫情插入监测流中，并分析检测的可能性和及时性来衡量性能。

结果

疫情检测的概率从 21%到 95%不等。对于所有监测系统，覆盖范围的增加并没有线性提高检测概率。放宽疫情信号的决策阈值大大增加了假阳性，略微提高了疫情检测的效率，并提前检测到了疫情。

结论

地理分布可能比覆盖范围更重要。传染病传播的详细模拟可以配置为代表几乎任何可以想象的情况。它们是评估监测系统性能和用于疫情检测的方法的有力工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5416/3691709/2d35b321ff6a/1472-6947-13-12-1.jpg

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基于模型的监测：利用模拟模型评估暴发检测。

in silico surveillance: evaluating outbreak detection with simulation models.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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