Center for Communicable Disease Dynamics, Department of Epidemiology, Harvard T.H. Chan School of Public Health, Harvard University, Boston, Massachusetts, United States of America.
Vector Control Services, Ministry of Public Health, Georgetown, Guyana.
PLoS Comput Biol. 2021 Nov 16;17(11):e1009570. doi: 10.1371/journal.pcbi.1009570. eCollection 2021 Nov.
Time lags in reporting to national surveillance systems represent a major barrier for the control of infectious diseases, preventing timely decision making and resource allocation. This issue is particularly acute for infectious diseases like malaria, which often impact rural and remote communities the hardest. In Guyana, a country located in South America, poor connectivity among remote malaria-endemic regions hampers surveillance efforts, making reporting delays a key challenge for elimination. Here, we analyze 13 years of malaria surveillance data, identifying key correlates of time lags between clinical cases occurring and being added to the central data system. We develop nowcasting methods that use historical patterns of reporting delays to estimate occurred-but-not-reported monthly malaria cases. To assess their performance, we implemented them retrospectively, using only information that would have been available at the time of estimation, and found that they substantially enhanced the estimates of malaria cases. Specifically, we found that the best performing models achieved up to two-fold improvements in accuracy (or error reduction) over known cases in selected regions. Our approach provides a simple, generalizable tool to improve malaria surveillance in endemic countries and is currently being implemented to help guide existing resource allocation and elimination efforts.
报告给国家监测系统的时间滞后是传染病控制的一个主要障碍,它会妨碍及时做出决策和资源分配。对于疟疾等传染病来说,这个问题尤为突出,因为疟疾往往对农村和偏远社区的影响最大。在南美洲的圭亚那,偏远疟疾流行地区之间的连通性很差,这阻碍了监测工作,导致报告延迟成为消除疟疾的一个关键挑战。在这里,我们分析了 13 年的疟疾监测数据,确定了临床病例发生和添加到中央数据系统之间时间滞后的关键相关因素。我们开发了实时预测方法,利用报告延迟的历史模式来估计每月发生但未报告的疟疾病例。为了评估它们的性能,我们仅使用在估计时可用的信息,对其进行了回溯性实施,结果发现它们大大提高了疟疾病例的估计数。具体来说,我们发现表现最好的模型在选定地区的已知病例的准确性(或误差减少)方面提高了两倍。我们的方法提供了一个简单、可推广的工具,以改善流行国家的疟疾监测,目前正在实施,以帮助指导现有资源分配和消除努力。
