Objectives: This research investigated the effects of area-specific extreme temperatures on health. The outcome variable was defined as the number of new cases of cerebrovascular disease and ischemic heart disease in each of seven regions comprising Taiwan. Methods: For each of the 312 administrative areas, the extreme temperature thresholds were defined as the 5th percentile of daily minimum temperatures and 95th percentile of daily maximum temperatures in 2003-2010, to account for the heterogeneity between areas. Each day was then categorized as experiencing unusually high temperature, unusually low temperature, or normal temperature weather. A generalized linear model was adopted to model the daily number of new cases of disease in each region, with a negative binomial link function for extra-Poisson variation, along with covariates including air pollution and season. Results: Residents in different areas experienced significantly different risk for both of the diseases considered (p ＜ 0.05). Under different threshold values of extreme temperature for the seven regions, extremely-high temperature days were associated with a higher risk of cerebrovascular disease. In summer, extremely high temperature increased risk even more. For instance, the increase of risk for the Central region was 5% overall but 6% in summer (from 16% to 17% in the Kao-Ping region, from 16% to 17% in the Yi-Lan region, and from 52% to 54% in the Hua-Dong region). In winter, the pattern of increased risk remained for extremely-high temperature days (all p-values above ＜ 0.05). For ischemic heart disease, the seven regions also exhibited significantly different risk (p ＜ 0.05). However, extremely-high temperature days only significantly influenced risk in the Yun-Chia-Nan and Kao-Ping regions by 21% and 11%, respectively; while days with extremely-low temperature only affected the susceptible residents in the Yi-Lan region, especially in the winter (risk increased by 22%, p ＜ 0.05). Conclusions: The evaluation of the effect of air temperature on health has attracted much attention in many countries including Taiwan. To evaluate such an effect, heterogeneity in the cutoff temperature values for temperatures among regions should be taken into account. In response to extreme temperatures, in particular to heat waves due to climate change, appropriate measures should be developed to alleviate or prevent negative health consequences for susceptible residents in different regions.