A study of temperature variability on admissions and deaths for cardiovascular diseases in Northwestern China

[1]  C. Granja,et al.  Data-driven cardiovascular risk prediction and prognosis factor identification in diabetic patients , 2022, 2022 IEEE-EMBS International Conference on Biomedical and Health Informatics (BHI).

[2]  Yana Bai,et al.  An effect of 24-hour temperature change on outpatient and emergency and inpatient visits for cardiovascular diseases in northwest China , 2021, Environmental Science and Pollution Research.

[3]  K. Teo,et al.  Cardiovascular risk factors and prevention: a perspective from developing countries. , 2021, The Canadian journal of cardiology.

[4]  Sathish Kumar Jayapal,et al.  Global Burden of Cardiovascular Diseases and Risk Factors, 1990–2019 , 2020, Journal of the American College of Cardiology.

[5]  V. Fuster,et al.  The Global Burden of Cardiovascular Diseases and Risks: A Compass for Global Action. , 2020, Journal of the American College of Cardiology.

[6]  Navid Rabiee,et al.  Global burden of 369 diseases and injuries in 204 countries and territories, 1990–2019: a systematic analysis for the Global Burden of Disease Study 2019 , 2020, Lancet.

[7]  Yana Bai,et al.  The effect of diurnal temperature range on blood pressure among 46,609 people in Northwestern China. , 2020, The Science of the total environment.

[8]  Q. Wei,et al.  Quantifying the impacts of temperature variability on hospitalizations for schizophrenia: A time series analysis in Hefei, China , 2019 .

[9]  H. Ho,et al.  Mortality risk and burden associated with temperature variability in China, United Kingdom and United States: Comparative analysis of daily and hourly exposure metrics. , 2019, Environmental research.

[10]  V. Fuster,et al.  The Global Burden of Cardiovascular Diseases and Risk Factors: 2020 and Beyond. , 2019, Journal of the American College of Cardiology.

[11]  Shao-quan Liu,et al.  Gender difference in time-use of off-farm employment in rural Sichuan, China , 2019, Journal of Rural Studies.

[12]  Yuming Guo,et al.  Temperature variability and hospitalization for ischaemic heart disease in Brazil: A nationwide case-crossover study during 2000-2015. , 2019, The Science of the total environment.

[13]  Y. Honda,et al.  The association between temperature variability and cause-specific mortality: Evidence from 47 Japanese prefectures during 1972-2015. , 2019, Environment international.

[14]  J. Qi,et al.  Spatiotemporal or temporal index to assess the association between temperature variability and mortality in China? , 2019, Environmental research.

[15]  Yuming Guo,et al.  Temperature variability and hospitalization for cardiac arrhythmia in Brazil: A nationwide case-crossover study during 2000-2015. , 2019, Environmental pollution.

[16]  Xianglin L. Du,et al.  Impacts of cold weather on emergency hospital admission in Texas, 2004–2013 , 2019, Environmental research.

[17]  J. Qi,et al.  Temperature variability and mortality in rural and urban areas in Zhejiang province, China: An application of a spatiotemporal index. , 2019, The Science of the total environment.

[18]  Yonghua Hu,et al.  Association between temperature variability and daily hospital admissions for cause-specific cardiovascular disease in urban China: A national time-series study , 2019, PLoS medicine.

[19]  Yunquan Zhang,et al.  Socio-geographic disparity in cardiorespiratory mortality burden attributable to ambient temperature in the United States , 2018, Environmental Science and Pollution Research.

[20]  Yuming Guo,et al.  Spatiotemporal and demographic variation in the association between temperature variability and hospitalizations in Brazil during 2000-2015: A nationwide time-series study. , 2018, Environment international.

[21]  Xiaobo Liu,et al.  Vulnerability to the impact of temperature variability on mortality in 31 major Chinese cities. , 2018, Environmental pollution.

[22]  Maigeng Zhou,et al.  Diurnal temperature range in relation to death from stroke in China , 2018, Environmental research.

[23]  Chuanhua Yu,et al.  Temporal and seasonal variations of mortality burden associated with hourly temperature variability: A nationwide investigation in England and Wales. , 2018, Environment international.

[24]  S. Tong,et al.  The mortality burden of hourly temperature variability in five capital cities, Australia: Time-series and meta-regression analysis. , 2017, Environment international.

[25]  Kai Luo,et al.  Effect modification of the association between temperature variability and daily cardiovascular mortality by air pollutants in three Chinese cities. , 2017, Environmental pollution.

[26]  Chuanhua Yu,et al.  Impact of temperature variation on mortality: An observational study from 12 counties across Hubei Province in China. , 2017, The Science of the total environment.

[27]  C. Ou,et al.  The burden of stroke mortality attributable to cold and hot ambient temperatures: Epidemiological evidence from China. , 2016, Environment international.

[28]  A. Gasparrini,et al.  Temperature Variability and Mortality: A Multi-Country Study , 2016, Environmental health perspectives.

[29]  A. Gasparrini,et al.  Cardiovascular mortality risk attributable to ambient temperature in China , 2015, Heart.

[30]  R. Liang,et al.  Short-Term Effect of Ambient Temperature and the Risk of Stroke: A Systematic Review and Meta-Analysis , 2015, International journal of environmental research and public health.

[31]  Jun Yang,et al.  Heat Waves and Morbidity: Current Knowledge and Further Direction-A Comprehensive Literature Review , 2015, International journal of environmental research and public health.

[32]  C. Begley,et al.  Impact of the 2011 heat wave on mortality and emergency department visits in Houston, Texas , 2015, Environmental Health.

[33]  Buda Su,et al.  The effects of summer temperature and heat waves on heat-related illness in a coastal city of China, 2011-2013. , 2014, Environmental research.

[34]  S. Tong,et al.  The impact of heat waves on children’s health: a systematic review , 2014, International Journal of Biometeorology.

[35]  Jian Cheng,et al.  Impact of diurnal temperature range on human health: a systematic review , 2014, International Journal of Biometeorology.

[36]  G. Rogler,et al.  Heat Waves, Incidence of Infectious Gastroenteritis, and Relapse Rates of Inflammatory Bowel Disease: A Retrospective Controlled Observational Study , 2013, The American Journal of Gastroenterology.

[37]  Shao-quan Liu,et al.  Current situation and influencing factors of pluriactivity in mountainous and hilly rural areas of Sichuan province, China , 2013, Journal of Mountain Science.

[38]  Antonio Gasparrini,et al.  Distributed Lag Linear and Non-Linear Models in R: The Package dlnm. , 2011, Journal of statistical software.

[39]  Yuming Guo,et al.  A Large Change in Temperature between Neighbouring Days Increases the Risk of Mortality , 2011, PloS one.

[40]  A Gasparrini,et al.  Distributed lag non-linear models , 2010, Statistics in medicine.

[41]  Rupa Basu,et al.  High ambient temperature and mortality: a review of epidemiologic studies from 2001 to 2008 , 2009, Environmental health : a global access science source.

[42]  Douglas G Altman,et al.  Interaction revisited: the difference between two estimates , 2003, BMJ : British Medical Journal.

[43]  H. Fukuzaki,et al.  Acute effects of exposure to cold on blood pressure, platelet function and sympathetic nervous activity in humans. , 1989, American journal of hypertension.

[44]  W. Keatinge,et al.  Increased platelet and red cell counts, blood viscosity, and plasma cholesterol levels during heat stress, and mortality from coronary and cerebral thrombosis. , 1986, The American journal of medicine.

[45]  Yana Bai,et al.  Cohort Profile Cohort Profile : The China Metal-Exposed Workers Cohort Study ( Jinchang Cohort ) , 2017 .

[46]  Hilde van der Togt,et al.  Publisher's Note , 2003, J. Netw. Comput. Appl..

[47]  B. Saltin,et al.  Human circulatory and thermoregulatory adaptations with heat acclimation and exercise in a hot, dry environment. , 1993, The Journal of physiology.