TY - JOUR KW - Thailand KW - Surveillance system KW - Negelected Tropical Diseases KW - Forecasting KW - Dengue fever AU - Reich N AU - Lauer S AU - Sakrejda K AU - Iamsirithaworn S AU - Hinjoy S AU - Suangtho P AU - Suthachana S AU - Clapham HE AU - Salje H AU - Cummings D AU - Lessler J AB -
Epidemics of communicable diseases place a huge burden on public health infrastructures across the world. Producing accurate and actionable forecasts of infectious disease incidence at short and long time scales will improve public health response to outbreaks. However, scientists and public health officials face many obstacles in trying to create such real-time forecasts of infectious disease incidence. Dengue is a mosquito-borne virus that annually infects over 400 million people worldwide. We developed a real-time forecasting model for dengue hemorrhagic fever in the 77 provinces of Thailand. We created a practical computational infrastructure that generated multi-step predictions of dengue incidence in Thai provinces every two weeks throughout 2014. These predictions show mixed performance across provinces, out-performing seasonal baseline models in over half of provinces at a 1.5 month horizon. Additionally, to assess the degree to which delays in case reporting make long-range prediction a challenging task, we compared the performance of our real-time predictions with predictions made with fully reported data. This paper provides valuable lessons for the implementation of real-time predictions in the context of public health decision making.
BT - PLoS neglected tropical diseases C1 -http://www.ncbi.nlm.nih.gov/pubmed/27304062?dopt=Abstract
DO - 10.1371/journal.pntd.0004761 IS - 6 J2 - PLoS Negl Trop Dis LA - eng N2 -Epidemics of communicable diseases place a huge burden on public health infrastructures across the world. Producing accurate and actionable forecasts of infectious disease incidence at short and long time scales will improve public health response to outbreaks. However, scientists and public health officials face many obstacles in trying to create such real-time forecasts of infectious disease incidence. Dengue is a mosquito-borne virus that annually infects over 400 million people worldwide. We developed a real-time forecasting model for dengue hemorrhagic fever in the 77 provinces of Thailand. We created a practical computational infrastructure that generated multi-step predictions of dengue incidence in Thai provinces every two weeks throughout 2014. These predictions show mixed performance across provinces, out-performing seasonal baseline models in over half of provinces at a 1.5 month horizon. Additionally, to assess the degree to which delays in case reporting make long-range prediction a challenging task, we compared the performance of our real-time predictions with predictions made with fully reported data. This paper provides valuable lessons for the implementation of real-time predictions in the context of public health decision making.
PY - 2016 EP - e0004761 T2 - PLoS neglected tropical diseases TI - Challenges in real-time prediction of infectious disease: A case study of dengue in Thailand. UR - http://journals.plos.org/plosntds/article/asset?id=10.1371%2Fjournal.pntd.0004761.PDF VL - 10 SN - 1935-2735 ER -