Department of Computer Science, Hong Kong Baptist University, Hong Kong SAR, China.
National Institute of Parasitic Diseases, China CDC, Shanghai, China.
Health Inf Sci Syst. 2014 Nov 17;2:8. doi: 10.1186/2047-2501-2-8. eCollection 2014.
To investigate transmission patterns of an infectious disease, e.g., malaria, it is desirable to use the observed surveillance data to discover the underlying (often hidden) disease transmission networks. Previous studies have provided methods for inferring information diffusion networks in which each node corresponds to an individual person. However, in the case of disease transmission, to effectively propose and implement intervention strategies, it is more realistic and reasonable for policy makers to study the diffusion patterns at a metapopulation level when the disease transmission is affected by mobile population, that is, to consider disease transmission networks in which nodes represent subpopulations, and links indicate their interrelationships.
A network inference method called NetEpi (Network Epidemic) is developed and evaluated using both synthetic and real-world datasets. The experimental results show that NetEpi can not only recover most of the ground-truth disease transmission networks using only surveillance data, but also find a malaria transmission network based on a real-world dataset. The inferred malaria network can characterize the real-world observations to a certain extent. In addition, it also discloses some hidden phenomenon.
This research addresses the problem of inferring disease transmission networks at a metapopulation level. Such networks can be useful in several ways: (i) to investigate hidden impact factors that influence epidemic dynamics, (ii) to reveal possible sources of epidemic outbreaks, and (iii) to practically develop and/or improve strategies for controlling the spread of infectious diseases.
为了研究传染病的传播模式,例如疟疾,最好使用观察到的监测数据来发现潜在的(通常是隐藏的)疾病传播网络。先前的研究提供了推断信息扩散网络的方法,其中每个节点对应于一个个体。然而,在疾病传播的情况下,为了有效地提出和实施干预策略,对于决策者来说,在受流动人口影响的情况下,在集合种群水平上研究扩散模式更为现实和合理,即考虑以节点表示亚种群且链接表示它们之间关系的疾病传播网络。
使用合成数据集和真实世界数据集开发和评估了一种称为 NetEpi(网络流行病)的网络推断方法。实验结果表明,NetEpi 不仅可以仅使用监测数据来恢复大多数真实疾病传播网络,还可以根据真实世界数据集找到疟疾传播网络。推断出的疟疾网络在一定程度上可以描述真实世界的观察结果。此外,它还揭示了一些隐藏的现象。
这项研究解决了在集合种群水平上推断疾病传播网络的问题。这些网络可以在以下几个方面发挥作用:(i)调查影响流行病动态的隐藏影响因素,(ii)揭示流行病爆发的可能来源,以及(iii)实际开发和/或改进控制传染病传播的策略。
