Seasonal variation in disease methodology with application to Pennsylvania data

Portnoy, Alfhild Vold,

January 1944

Thesis (Ph. D.)--University of Pennsylvania, 1942. / Reproduced from type-written copy. "References" at end of chapters II-Iv.

Evolución sanitaria de Zaragoza durante el centenario 1870-1970 un siglo en la historia de la medicina zaragozana /

Rabadán Pina, Mariano.

January 1984

Thesis (doctoral)--Universidad de Zaragoza, 1982. / Includes bibliographical references (p. 247-249).

Relações entre o tempo atmosférico e doenças cardiorespiratórias na cidade de Cordeirópolis-SP

Genaro, Vinicius [UNESP]

19 April 2011

Made available in DSpace on 2014-06-11T19:27:52Z (GMT). No. of bitstreams: 0 Previous issue date: 2011-04-19Bitstream added on 2014-06-13T20:57:04Z : No. of bitstreams: 1 genaro_v_me_rcla.pdf: 1730791 bytes, checksum: 6b7e4cf6942516a7a3c5007e21ad1785 (MD5) / Cordeirópolis é uma cidade com aproximadamente 20.000, localizada em meio a Depressão Periférica Paulista, uma das regiões com umidade relativa do ar mais baixas do estado de São Paulo durante a estação de inverno. Por outro lado, a cidade também conta com uma série de problemas socioambientais, como a exploração indiscriminada dos recursos naturais e os baixos níveis educacionais apresentados pela população local, colocando em risco a qualidade de vida dos habitantes. Diante dos fatos, buscou-se estabelecer relações entre os diferentes tipos de tempo atmosférico e as doenças cardiorrespiratórias, considerando que as variações do tempo atmosférico tendem a desencadear uma série de reações no organismo humano, causando ou agravando um emaranhado de sintomas, enfermidades e mudanças no quadro clínico de saúde da população. Também foi possível identificar os grupos de risco e mapear as áreas mais vulneráveis e o local de residência dos pacientes portadores de enfermidades ligadas ao sistema circulatório e respiratório atendidos pelo Programa Saúde da Família, servindo de contribuição para que o poder público possa pensar novas diretrizes que sejam ecologicamente, social e economicamente mais viáveis e justas / Cordeirópolis is a small town with approximately 20,000 inhabitants and is located in the midst of the Depressão Periférica Paulista, one of the driest regions of the state of São Paulo during the winter season. On the other hand, the city is among the largest and most important deposits of clay, which explains its economic vocation, aimed mainly to the production of ceramic artifacts and agriculture of sugar cane. Despite being part of the largest ceramic center in Latin America,and although the ceramic industries as well as the sugar industry are the main sources of income of the municipality, the city has a number of socio-environmental problems, such as the indiscriminate exploitation of natural resources and low levels of education provided by the local population, threatening the quality of life for residents. Given the above facts, we sought to establish relationships between different types of weather and cardiopulmonary diseases, considering that variations in the weather tend to trigger a series of reactions in the human body, causing or exacerbating a tangle of symptoms, diseases changes in clinical and population health. By the way, were collected, processed and organized weather data on precipitation, temperature, relative humidity and air quality standard, and was then correlated with the information collected by the Hospital Health System (SIH-SUS), referring to the monthly number of patients hospitalized for some kind of cardiopulmonary disease. Through the questionnaires it was possible to identify risk groups and map the area’s most vulnerable and place of residence of patients with diseases related to circulatory and respiratory system served by the Family Health Program, serving as a contribution to the local government can think of new guidelines that are environmentally, socially and economically more viable and fair

Geografia medica

Bioclimatologia

Medical geography

Bioclimatology

Environmental health - Research

Medical climatology

Relações entre o tempo atmosférico e doenças cardiorespiratórias na cidade de Cordeirópolis-SP /

Genaro, Vinicius.

January 2011

Orientador: Anderson L.H. Christofoletti / Banca: Sandra Elisa Contri Pitton / Banca: Thiago Salomão de Azevedo / Resumo: Cordeirópolis é uma cidade com aproximadamente 20.000, localizada em meio a Depressão Periférica Paulista, uma das regiões com umidade relativa do ar mais baixas do estado de São Paulo durante a estação de inverno. Por outro lado, a cidade também conta com uma série de problemas socioambientais, como a exploração indiscriminada dos recursos naturais e os baixos níveis educacionais apresentados pela população local, colocando em risco a qualidade de vida dos habitantes. Diante dos fatos, buscou-se estabelecer relações entre os diferentes tipos de tempo atmosférico e as doenças cardiorrespiratórias, considerando que as variações do tempo atmosférico tendem a desencadear uma série de reações no organismo humano, causando ou agravando um emaranhado de sintomas, enfermidades e mudanças no quadro clínico de saúde da população. Também foi possível identificar os grupos de risco e mapear as áreas mais vulneráveis e o local de residência dos pacientes portadores de enfermidades ligadas ao sistema circulatório e respiratório atendidos pelo Programa Saúde da Família, servindo de contribuição para que o poder público possa pensar novas diretrizes que sejam ecologicamente, social e economicamente mais viáveis e justas / Abstract: Cordeirópolis is a small town with approximately 20,000 inhabitants and is located in the midst of the Depressão Periférica Paulista, one of the driest regions of the state of São Paulo during the winter season. On the other hand, the city is among the largest and most important deposits of clay, which explains its economic vocation, aimed mainly to the production of ceramic artifacts and agriculture of sugar cane. Despite being part of the largest ceramic center in Latin America,and although the ceramic industries as well as the sugar industry are the main sources of income of the municipality, the city has a number of socio-environmental problems, such as the indiscriminate exploitation of natural resources and low levels of education provided by the local population, threatening the quality of life for residents. Given the above facts, we sought to establish relationships between different types of weather and cardiopulmonary diseases, considering that variations in the weather tend to trigger a series of reactions in the human body, causing or exacerbating a tangle of symptoms, diseases changes in clinical and population health. By the way, were collected, processed and organized weather data on precipitation, temperature, relative humidity and air quality standard, and was then correlated with the information collected by the Hospital Health System (SIH-SUS), referring to the monthly number of patients hospitalized for some kind of cardiopulmonary disease. Through the questionnaires it was possible to identify risk groups and map the area's most vulnerable and place of residence of patients with diseases related to circulatory and respiratory system served by the Family Health Program, serving as a contribution to the local government can think of new guidelines that are environmentally, socially and economically more viable and fair / Mestre

Geografia médica.

Bioclimatologia.

Medical geography. eng

Bioclimatology. eng

Environmental health - Research. eng

Medical climatology. eng

The relationship between climate variation and selected infectious diseases: Australian and Chinese perspectives.

Zhang, Ying

January 2007

Background Climate variation has affected diverse physical and biological systems worldwide. Population health is one of the most important impacts of climate variation. Although the impact of climate variation on infectious diseases has been of significant concern recently, the relationship between climate variation and infectious diseases, including vector-borne diseases and enteric infections, needs greater clarification. Australia is grappling with developing politically acceptable responses to global warming. In China, few studies have been conducted to examine the effect of climate variation, including global warming, on population health. As residents of developing countries may suffer more from climate change compared with people living in more developed countries, this thesis has significance for both countries. Aims This study aims to contribute to a better understanding of the impact of climate variation on population health, and to provide scientific evidence for policy makers, researchers, public health practitioners and local communities in the development of public health strategies at an early stage, in order to prevent or reduce future risks associated with ongoing climate change. The objectives of this study include: (1) to quantify the association between climate variation and selected vectorborne diseases and enteric infections in different climatic regions in Australia and China; (2) to project the future burden of selected vector-borne diseases and enteric infections based on climate change scenarios in different climatic regions in Australia and China. Methods This ecological study has two components. The first uses time-series analyses to quantify the relationship between meteorological variables and infectious diseases, whereas the second projects the burden of selected infectious diseases using future climate and population scenarios. Temperate and subtropical climatic zones in both Australia and China were selected as the primary study areas, and a study of an Australian tropical region was also conducted. Study of Australia’s temperate zones was conducted in Adelaide, South Australia, as well as the Murray River region in that State. The study of China’s temperate zone was carried out in Jinan, Shandong Province. Subtropical studies were conducted in Baoan, Guangdong Province, China, and Brisbane in Queensland, whilst research for the tropics centred on Townsville, also in Queensland, Australia. The selected infectious diseases - one vector-borne disease and one enteric infection in each country - are Ross River Virus (RRV) infection and salmonellosis in Australia, and malaria and bacillary dysentery in China. Study periods vary from eight to sixteen years (depending upon the availability of data). Climate data, infectious disease surveillance data and demographic data were collected from local authorities. Data analyses conducted in the ecological studies include Spearman correlation analysis, time-series adjusted Poisson regression and the Seasonal Autoregressive Integrated Moving Average (SARIMA) model with consideration of lag effects, seasonality, long-term trends, and autocorrelation, on a weekly or monthly basis depending on data availability, and Hockey Sticky model to detect potential threshold temperatures. In the burden of disease component, analyses include the calculation of an indicator of the burden of disease - Years Lost due to Disabilities (YLDs) - and use scenario-based models to project YLDs for the selected diseases in 2030 and 2050 in Australia and 2020 and 2050 in China respectively. The projections consider both different scenarios of projected temperature and future population change. Results Relationship between climate variation and selected infectious diseases In all the study regions in Australia, maximum temperature, minimum temperature, rainfall and humidity are all significantly related to the number of RRV infections, with lag effects varying from 0 to 3 months. Additionally, high tides in the two seaside regions with tropical (Townsville) or subtropical (Brisbane) climates, and river flow in the temperate region (Murray River region), are related to the number of cases without any lag effects. A potential 1°C increase in maximum or minimum temperature may cause 4%~23% extra cases of RRV infection in the temperate region, 5~8% in the subtropical region, and 6%~15% in the tropical region. Maximum temperature, minimum temperature, humidity and air pressure are significantly related to malaria cases in the temperate city Jinan and subtropical city Baoan in China, with a lag effect range of 0 to 1 month. An association between rainfall and malaria cases was not detected in either region. A potential 1°C increase in maximum or minimum temperature may lead to 4%~15% extra malaria cases in the temperate region, and 12%-18% in the tropical region in China. Maximum temperature, minimum temperature, rainfall and humidity are all significantly related to the number of salmonellosis cases in the three study cities in Australia, with lag effects varying from 0 to 1 month. A potential 1°C increase in maximum or minimum temperature may cause 6%~19% extra salmonellosis cases in the temperate region (Adelaide), 5%~10% in the subtropical region (Brisbane), and 4%~15% in the tropical region (Townsville). The thresholds for the effects of maximum and minimum temperatures are 20ºC and 12ºC respectively in Adelaide. No threshold temperatures are detected in Townsville and Brisbane. Maximum temperature, minimum temperature, humidity, air pressure and rainfall are significantly related to bacillary dysentery cases in the temperate city Jinan and subtropical city Baoan in China, with the lag effect range of 0 to 2 months. A potential 1°C increase in maximum or minimum temperature may cause 7%~15% extra bacillary dysentery cases in the temperate region and 10% ~ 19% in the subtropical region in China. The thresholds for the effects of maximum and minimum temperatures on bacillary dysentery are 17ºC and 8ºC respectively in Jinan. No threshold temperatures are detected in Baoan. Projection of YLDs from target diseases In Australia, considering both climatic and population scenarios, if other factors remain constant, compared with the YLDs observed in 2000, the YLDs for salmonellosis might increase by up to 48% by 2030, and nearly double by 2050 in South Australia, while the YLDs might double by 2030 and increase by up to 143% by 2050 in Brisbane, Queensland. The YLDs for RRV infection might increase by up to 66% by 2030, and nearly double by 2050 in South Australia. They might increase by up to 61% by 2030 and double by 2050 in Brisbane, Queensland. In China, considering both climatic and population scenarios, if other factors remain constant, compared with the YLDs observed in 2000, the YLDs for bacillary dysentery might double by 2020 and triple by 2050 in both Jinan and Baoan. The YLDs for malaria might increase by up to 108% by 2020 and nearly triple by 2050 in Jinan, the temperate city, and increase by up to 144% by 2020 and nearly triple by 2050 in Baoan, the subtropical city. Conclusions 1. Both maximum and minimum temperatures are important in the transmission of vector-borne diseases in various climatic regions in both Australia and China. River flow or high tides may also play an important role in the transmission of such diseases. 2. Both maximum and minimum temperatures play an important role in the transmission of enteric infections in various climatic regions in both Australia and China, with a threshold temperature detected in the temperate regions but not in subtropical and tropical regions. 3. The effects of rainfall and relative humidity on selected infectious diseases vary in different study areas in Australia and China. 4. The burden of temperature-related infectious diseases may greatly increase in the future if there is no effective preventive intervention. Public health implications 1. Implication for health practice • Public health practitioners, together with relevant government organisations, should monitor trends in infectious diseases, as well as other relevant indexes, such as vectors, pathogens, and water and food safety. They should advise policy makers of the potential risks associated with climate change and develop public health strategies to prevent and reduce the impact of infectious disease associated with such change. • Doctors and other clinical practitioners should be prepared and supported in the provision of health care for any expected extra cases associated with climate variation and should play an important role in relevant health education on climate change. • Community participation is of significance to adapt to and mitigate the risk of climate change on population health. Community involvement helps to deliver programmes which more accurately target local needs. Therefore, community should be involved in the partnerships of climate change as early as possible. • Relevant education programs on the potential health impact of climate change should be conducted by government at all levels for different stakeholders, including industries, governments, communities, clinicians and researchers. • Advocacy for adapting to and mitigating climate change should be a longstanding public health activity. 2. Implication for researchers • The main task for researchers is to identify the independent contribution made by key climatic variables and whether there are exposure thresholds for infectious disease transmission. Further studies should include various infectious diseases in different climatic regions. • Developing countries and rural regions are more vulnerable to the impact of climate change so more research should be conducted for people living in those regions. • Studies using summary measures that combine prevalence of disease, quality of life and life expectancy, such as Disability Adjusted Life Years (DALYs), to assess the burden of disease due to climate change is necessary to assist in decision making. • More research should be conducted on the assessment of adaptive strategies and mitigation to future climate change. 3. Implication for policies • Public and preventive health strategies that consider local climatic conditions and their impact on vector and food borne diseases are important in reducing such impact due to climate change in the future. • The extra health burden that may be caused by future climate change may have a great impact on the currently overloaded public health system in both developed and developing countries. Long-term planning about health resource allocation, infrastructure establishment, and relevant response mechanisms should be developed at relevant government levels. • Effective prevention and intervention strategies will be possible only if the efforts of relevant sectors, including governments, communities, industries, research institutions, clinical professionals and individuals, have coordinated responses. • International and regional collaborations are necessary to address this global issue. In addition, strategies of an international dimension should be translated into regional and local actions. This is extremely important to developing countries such as China and India. • Sustainable development policies with consideration given to reducing green house gases and environmental degradation need immediate action which will benefit future generations. Health priorities should include the prevention of climate change. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1290777 / Thesis(Ph.D.)-- School of Population Health and Clinical Practice, 2007

Analise espaço-temporal das condições meteorologicas e incidencia de gripe e pneumonia no municipio de São Paulo / Temporal-spatial analysis of the relationships between meteorological data and incindence of the influenza (flu) and pneumonia in the São Paulo metropolis

Miranda, Marina Jorge

15 August 2018

Orientadores: Hilton Silveira Pinto, Jose Teixeira Filho / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Geociencia / Made available in DSpace on 2018-08-15T00:11:10Z (GMT). No. of bitstreams: 1 Miranda_MarinaJorge_M.pdf: 1300631 bytes, checksum: b9f17e74f2ace8bc4eee46b420c56b8f (MD5) Previous issue date: 2009 / Resumo: Independente do conhecimento científico, a cultura popular, em qualquer parte do globo, associa as alterações do tempo meteorológico - chuva, umidade, temperatura, vento - com o comportamento da saúde humana. Estudos científicos têm sido realizados com o propósito de descobrir quais as reais relações entre os elementos meteorológicos ou climáticos e a ocorrência de doenças humanas de modo geral e, especificamente, dos aparelhos circulatório e respiratório. A metrópole de São Paulo vem apresentando alterações em suas condições climáticas locais devido às modificações nas características atmosféricas causadas pelo lançamento de poluentes, o aumento da temperatura e o impacto das precipitações que causam o crescimento do número de problemas, sobretudo de saúde pública. O presente trabalho avaliou de forma temporal e espacial, se os efeitos das condições micrometeorológicas e micro-climáticas da cidade de São Paulo interferem na saúde humana, utilizando técnicas estatísticas e de geoprocessamento. Foram analisados dados meteorológicos diários obtidos pela rede urbana de coleta pertencente a Somar Meteorologia e ao IAG/USP e dados de internações diárias de indivíduos com problemas respiratórios, mais especificamente com influenza (gripe) e pneumonia, obtidos na rede SUS. O período estudado foi de Janeiro de 2002 a Dezembro de 2005. Os estudos desenvolvidos para as condições atuais de clima poderão ser utilizados para simular cenários futuros de saúde humana nas grandes cidades em função do aquecimento global e podem auxiliar as políticas públicas urbanas e de saúde coletiva. / Abstract: Everywhere in the world, the popular culture associates the alterations in meteorological data - rain, wind, temperature, humidity - with the behavior of human health. Scientific studies have been conducted in the aim to relate the meteorology and climate to the occurrence of human diseases, specifically of the circulatory and respiratory systems. The Sao Paulo metropolis has shown changes in the meteorological conditions due to changes in atmospheric characteristics caused by the release of pollutants, which increased the impact of temperature and precipitation, inducing the number of issues, particularly in domain of a public health. This study evaluates the effects of micro-meteorological and micro-climate conditions into the human health, using statistic and geoprocessing techniques. The incidence of daily hospitalization of persons with respiratory problems, specifically with influenza (flu) and pneumonia, (obtained in the SUS network) has being relayed with variation in daily meteorological data (obtained by the IAG / USP). It was analyzed a period from January 2002 to December 2005. We are developing the models to simulate scenarios for human health in big cities in terms of global warming, which could help the planning and decisions of urban public policies and public health. / Mestrado / Mestre em Geografia

Morbidade

Climatologia medica

Saude publica - São Paulo (Estado)

Morbidity

Medical climatology

Public health - São Paulo (SP)

Climatic changes - São Paulo (SP)

EXTREME HEAT EVENT RISK MAP CREATION USING A RULE-BASED CLASSIFICATION APPROACH

Simmons, Kenneth Rulon

19 March 2012

Indiana University-Purdue University Indianapolis (IUPUI) / During a 2011 summer dominated by headlines about an earthquake and a hurricane along the East Coast, extreme heat that silently killed scores of Americans largely went unnoticed by the media and public. However, despite a violent spasm of tornadic activity that claimed over 500 lives during the spring of the same year, heat-related mortality annually ranks as the top cause of death incident to weather. Two major data groups used in researching vulnerability to extreme heat events (EHE) include socioeconomic indicators of risk and factors incident to urban living environments. Socioeconomic determinants such as household income levels, age, race, and others can be analyzed in a geographic information system (GIS) when formatted as vector data, while environmental factors such as land surface temperature are often measured via raster data retrieved from satellite sensors. The current research sought to combine the insights of both types of data in a comprehensive examination of heat susceptibility using knowledge-based classification. The use of knowledge classifiers is a non-parametric approach to research involving the creation of decision trees that seek to classify units of analysis by whether they meet specific rules defining the phenomenon being studied. In this extreme heat vulnerability study, data relevant to the deadly July 1995 heat wave in Chicago’s Cook County was incorporated into decision trees for 13 different experimental conditions. Populations vulnerable to heat were identified in five of the 13 conditions, with predominantly low-income African-American communities being particularly at-risk. Implications for the results of this study are given, along with direction for future research in the area of extreme heat event vulnerability.

Heat waves (Meteorology)

Heat -- Physiological effect

Health risk assessment

Medical climatology