Season 82010
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Interpretation: El Niño had an effect on hospital admissions greater than that explained by the regular seasonal variability in ambient temperature. The excess increase in ambient temperature was the main environmental variable affecting admissions. If our findings are reproducible in other regions, diarrhoeal diseases may increase by millions of cases worldwide with each degree of increase in ambient temperature above normal.
This collaboration between the NBCFM and Girl Scouts will not only benefit the community, but the experience will have a profound and positive impact on the girls of Troop 82010 for many years. When community partners work together to benefit the youth of our society, we know the future becomes brighter, is a sentiment echoed by Carolina and Angela.
Introduction: To investigate whether the El Nino phenomenon and ambient temperature had an effect on the epidemiology of childhood diarrhoea, we analysed data on daily number of admissions of children with diarrhoea to the Oral Rehydration Unit of the Instituto de Salud del Nino in Lima, Peru, between January, 1993, and November, 1998. Methods: We obtained daily data on hospital admissions from the Oral Rehydration Unit, and meteororological data from the Peruvian Weather Service, and used time-series linear regression models to assess the effects of the 1997-98 El Nino event on admissions for diarrhoea. Findings: 57,331 children under 10 years old were admitted to the unit during the study. During the 1997-98 El Nino episode, mean ambient temperature in Lima increased up to 5°C above normal, and the number of daily admissions for diarrhoea increased to 200% of the previous rate. 6225 excess admissions were attributable to El Nino, and these cost US$277,000. During the period before the El Nino episode, admissions for diarrhoea increased by 8% per 1°C increase in mean ambient temperature. The effects of El Nino and ambient temperature on the number of admissions for diarrhoea were greatest during the winter months. Interpretation: El Nino had an effect on hospital admissions greater than that explained by the regular seasonal variability in ambient temperature. The excess increase in ambient temperature was the main environmental variable affecting admissions. If our findings are reproducible in other regions, diarrhoeal diseases may increase by millions of cases worldwide with each degree of increase in ambient temperature above normal.
N2 - Introduction: To investigate whether the El Nino phenomenon and ambient temperature had an effect on the epidemiology of childhood diarrhoea, we analysed data on daily number of admissions of children with diarrhoea to the Oral Rehydration Unit of the Instituto de Salud del Nino in Lima, Peru, between January, 1993, and November, 1998. Methods: We obtained daily data on hospital admissions from the Oral Rehydration Unit, and meteororological data from the Peruvian Weather Service, and used time-series linear regression models to assess the effects of the 1997-98 El Nino event on admissions for diarrhoea. Findings: 57,331 children under 10 years old were admitted to the unit during the study. During the 1997-98 El Nino episode, mean ambient temperature in Lima increased up to 5°C above normal, and the number of daily admissions for diarrhoea increased to 200% of the previous rate. 6225 excess admissions were attributable to El Nino, and these cost US$277,000. During the period before the El Nino episode, admissions for diarrhoea increased by 8% per 1°C increase in mean ambient temperature. The effects of El Nino and ambient temperature on the number of admissions for diarrhoea were greatest during the winter months. Interpretation: El Nino had an effect on hospital admissions greater than that explained by the regular seasonal variability in ambient temperature. The excess increase in ambient temperature was the main environmental variable affecting admissions. If our findings are reproducible in other regions, diarrhoeal diseases may increase by millions of cases worldwide with each degree of increase in ambient temperature above normal.
AB - Introduction: To investigate whether the El Nino phenomenon and ambient temperature had an effect on the epidemiology of childhood diarrhoea, we analysed data on daily number of admissions of children with diarrhoea to the Oral Rehydration Unit of the Instituto de Salud del Nino in Lima, Peru, between January, 1993, and November, 1998. Methods: We obtained daily data on hospital admissions from the Oral Rehydration Unit, and meteororological data from the Peruvian Weather Service, and used time-series linear regression models to assess the effects of the 1997-98 El Nino event on admissions for diarrhoea. Findings: 57,331 children under 10 years old were admitted to the unit during the study. During the 1997-98 El Nino episode, mean ambient temperature in Lima increased up to 5°C above normal, and the number of daily admissions for diarrhoea increased to 200% of the previous rate. 6225 excess admissions were attributable to El Nino, and these cost US$277,000. During the period before the El Nino episode, admissions for diarrhoea increased by 8% per 1°C increase in mean ambient temperature. The effects of El Nino and ambient temperature on the number of admissions for diarrhoea were greatest during the winter months. Interpretation: El Nino had an effect on hospital admissions greater than that explained by the regular seasonal variability in ambient temperature. The excess increase in ambient temperature was the main environmental variable affecting admissions. If our findings are reproducible in other regions, diarrhoeal diseases may increase by millions of cases worldwide with each degree of increase in ambient temperature above normal.
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The authors tried to evaluate the effect of environmental factors on the embryo transfer of 21 Holstein cows, in a 30 months period, submitted to 37 superovulatory treatments with 3.000 I.U. of PMSG. The results were analyzed considering two seasons: wet period (October to March) with an average maximum temperature = 30.0 ± 0.8ºC and an average absolute precipitation = 153.1 ± 78.8 mm³ and dry period (April to September) with an average maximum temperature = 26.5 ± 1.6ºC and an average absolute precipitation = 59.2 ± 53.8 mm³. Climatic differences between seasons were demonstrated (P
The authors tried to evaluate the effect of environmental factors on the embryo transfer of 21 Holstein cows, in a 30 months period, submitted to 37 superovulatory treatments with 3.000 I.U. of PMSG. The results were analyzed considering two seasons: wet period (October to March) with an average maximum temperature = 30.0 ± 0.8ºC and an average absolute precipitation = 153.1 ± 78.8 mm3 and dry period (April to September) with an average maximum temperature = 26.5 ± 1.6ºC and an average absolute precipitation = 59.2 ± 53.8 mm3. Climatic differences between seasons were demonstrated (P 781b155fdc