気候変動と感染症--医学研究と地域情報学のクロスオーバー--  [in Japanese] Climate Change and Infectious Diseases:Crossover between Medical Research and Area Informatics  [in Japanese]

Climate change can influence human health in various ways. The influence on infectious diseases is considered particularly important. This chapter deals with the application of an area informatics approach to study in the medical field, particularly the epidemiology of infectious diseases. In recent years, models to predict the effects of climate change on the incidence of infectious diseases in certain areas using time and space as "rulers" have been developed. This approach appears to be applicable to all infectious diseases if important factors mediating the transfer of the effects of climate change to the incidence of infectious disease and the mediation mechanism are understood.Infection is based on the relationship between the host and its parasite (pathogen). In some cases, an intermediate host(s) and/or vector(s) may also be involved in the establishment of infection. All the biological factors involved in infection are influenced individually by climate change. It is important to take the route of transmission of each infectious disease and all biological factors involved in its transmission into consideration when evaluating the effect of climate change on infectious diseases.In this paper, an overview of the importance of climate change effects on infectious diseases is followed by an explanation of representative infectious diseases transmitted through oral,respiratory and skin routes and direct contact and the possible effects of climate change on these infectious diseases. These explanations help the reader understand the important factors involved in the transfer of climate change effects. Next, the direct effect of climate change on the host is considered, with an explanation of some models used to predict change in the risk map(geographical distribution of pathogens or vectors) due to future climate change. In addition, a model we developed to predict future cholera epidemics using local climate data is introduced.Finally, the extent to which climate change studies overlap area informatics is discussed.

Climate change can influence human health in various ways. The influence on infectious diseasesis considered particularly important. This chapter deals with the application of an areainformatics approach to study in the medical field, particularly the epidemiology of infectiousdiseases. In recent years, models to predict the effects of climate change on the incidence ofinfectious diseases in certain areas using time and space as "rulers" have been developed. Thisapproach appears to be applicable to all infectious diseases if important factors mediating thetransfer of the effects of climate change to the incidence of infectious disease and the mediationmechanism are understood.Infection is based on the relationship between the host and its parasite (pathogen). In somecases, an intermediate host(s) and/or vector(s) may also be involved in the establishment ofinfection. All the biological factors involved in infection are influenced individually by climatechange. It is important to take the route of transmission of each infectious disease and allbiological factors involved in its transmission into consideration when evaluating the effect ofclimate change on infectious diseases.In this paper, an overview of the importance of climate change effects on infectious diseases isfollowed by an explanation of representative infectious diseases transmitted through oral,respiratory and skin routes and direct contact and the possible effects of climate change on theseinfectious diseases. These explanations help the reader understand the important factorsinvolved in the transfer of climate change effects. Next, the direct effect of climate change on thehost is considered, with an explanation of some models used to predict change in the risk map(geographical distribution of pathogens or vectors) due to future climate change. In addition, amodel we developed to predict future cholera epidemics using local climate data is introduced.Finally, the extent to which climate change studies overlap area informatics is discussed.