C Linares1, J Díaz. 1. Department of Education for Sustainable Development of the Madrid City Council, Autónoma University General Foundation of Madrid, Madrid, Spain.
Abstract
BACKGROUND: Heat wave prevention plans are traditionally implemented according to a temperature limit above which mortality begins to rise. Although these prevention plans are obviously designed to avoid deaths, it is also necessary to establish the impact of extreme temperatures on hospital admissions in order to put hospital alert plans into action for dealing with people affected by heat wave victims. METHODS: We used data on daily emergency admissions between May and September, from 1995 to 2000, in the Hospital General Universitario Gregorio Marañón in Madrid. The causes for admission were considered as 'organic' (International Classification of Diseases, ICD-9: 1-799), circulatory (ICD-9: 390-459) and respiratory (ICD-9: 460-519). We stratified them according to the following age groups: all ages, from 0 to 10, 18 to 44, 45 to 64, 65 to 74 and above 75 years. The methodology used was Autorregresive Integrated Moving Average (ARIMA) modelling, including variables related to atmospheric pollution, seasonality and trends. RESULTS: The results show that the temperature above which hospital admissions soar coincides with the temperature limit above which mortality sharply rises, which, in turn, coincides with percentile 95 of the maximum daily temperature series for summer months. The pattern of hospital admissions is completely different from that of mortality. The rise in hospital admissions due to all causes and age groups is clearly smaller than that detected for mortality. DISCUSSION: These results suggest that people die rapidly from circulatory diseases before they can be admitted to hospital. This datum is vital with regard to implementing prevention plans prior to the arrival of the heat wave, if they are to effectively reduce mortality.
BACKGROUND: Heat wave prevention plans are traditionally implemented according to a temperature limit above which mortality begins to rise. Although these prevention plans are obviously designed to avoid deaths, it is also necessary to establish the impact of extreme temperatures on hospital admissions in order to put hospital alert plans into action for dealing with people affected by heat wave victims. METHODS: We used data on daily emergency admissions between May and September, from 1995 to 2000, in the Hospital General Universitario Gregorio Marañón in Madrid. The causes for admission were considered as 'organic' (International Classification of Diseases, ICD-9: 1-799), circulatory (ICD-9: 390-459) and respiratory (ICD-9: 460-519). We stratified them according to the following age groups: all ages, from 0 to 10, 18 to 44, 45 to 64, 65 to 74 and above 75 years. The methodology used was Autorregresive Integrated Moving Average (ARIMA) modelling, including variables related to atmospheric pollution, seasonality and trends. RESULTS: The results show that the temperature above which hospital admissions soar coincides with the temperature limit above which mortality sharply rises, which, in turn, coincides with percentile 95 of the maximum daily temperature series for summer months. The pattern of hospital admissions is completely different from that of mortality. The rise in hospital admissions due to all causes and age groups is clearly smaller than that detected for mortality. DISCUSSION: These results suggest that people die rapidly from circulatory diseases before they can be admitted to hospital. This datum is vital with regard to implementing prevention plans prior to the arrival of the heat wave, if they are to effectively reduce mortality.
Authors: Erin B Wasserman; Wojciech Zareba; Mark J Utell; David Oakes; Philip K Hopke; Mark Frampton; David Chalupa; William Beckett; David Q Rich Journal: Air Qual Atmos Health Date: 2014-09-01 Impact factor: 3.763
Authors: Isidro Juan Miron; Cristina Linares; Juan Carlos Montero; Juan Jose Criado-Alvarez; Julio Díaz Journal: Int J Biometeorol Date: 2014-11-16 Impact factor: 3.787
Authors: Andrea Winquist; Andrew Grundstein; Howard H Chang; Jeremy Hess; Stefanie Ebelt Sarnat Journal: Environ Res Date: 2016-02-27 Impact factor: 6.498