S. Coughlin, M. Jacobs, H. Thind, Nicole J. Champagne, Benyuan Liu, M. S. Golden, C. Osimo, N. Tracy, R. Massey
{"title":"需要经过研究测试的智能手机应用程序来减少在工作和家庭环境中暴露于已知或可疑的乳腺癌致癌物。","authors":"S. Coughlin, M. Jacobs, H. Thind, Nicole J. Champagne, Benyuan Liu, M. S. Golden, C. Osimo, N. Tracy, R. Massey","doi":"10.15436/2378-6841.15.e004","DOIUrl":null,"url":null,"abstract":"Rapid technological developments have led to the development of smartphones that combine the voice and text messaging functions of cellular phones with computing technology that can support Internet access and third-party applications[1]. Major smartphone platforms provide third-party developers with application programming interfaces that can be used to build special purpose applications referred to as native apps[1]. To an increasing extent, smartphones are gaining widespread use in health promotion research and practice. For example, smartphone apps have been developed and shown to be effective for promoting healthy diet and nutrition, weight control, physical activity, and other behaviors associated with reduced risk of breast cancer and a variety of other chronic diseases[2,3]. Smartphone apps for promoting healthy behaviors should be based on health behavior theories and frameworks and include evidence-based features such as positive reinforcement and self-monitoring. Several web-based databases --for example, the Chemical Hazard and Alternatives Toolbox (ChemHat), the Pharos Project, Haz-Map, the U.S. Library of Medicine’s Genetic Toxicology Database (GENE-TOX), Environmental Working Group resources, and the California State Office of Environmental Health Hazard Assessment’s Proposition 65 list of chemicals[4-9] have been developed for providing information about toxic chemicals, including known or suspected breast cancer carcinogens. Not all of these databases, however, are intended for use by lay persons who are not well-versed in toxicology, occupational health and safety, or environmental epidemiology, and some key resources require a paid subscription. In a synthesis of scientific data from national and international sources, Silent Spring Institute researchers identified 216 chemicals that caused increased mammary tumors in an animal study[10]. An estimated 100 of these chemicals are likely common sources of exposure in everyday life. For example, people are exposed to carcinogenic polycyclic aromatic hydrocarbons (PAHs) in grilled and smoked food, tobacco smoke, and air pollution from auto exhaust. Ethylene oxide is used in hospitals and other medical facilities to sterilize instruments[10]. Mammary carcinogens are also found in certain furniture finishes, dyes, and solvents. Although conclusive evidence from epidemiologic studies is lacking, it is plausible that exposures to chemicals with estrogenic or other properties relevant to sex steroid activity (e.g., bisphenol A, polybrominated diphenyl ethers, and certain dioxins or dioxin-like compounds) could influence breast cancer risk if the exposures occur at critical life stages or in combination with exposure to similar chemicals[11]. Several studies have found an association between shift work and disruption of the circadian rhythm and risk of breast cancer[12].","PeriodicalId":87298,"journal":{"name":"Journal of environment and health sciences","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2015-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"10","resultStr":"{\"title\":\"On the Need for Research-Tested Smartphone Applications for Reducing Exposures to Known or Suspected Breast Carcinogens in Work and Home Environments.\",\"authors\":\"S. Coughlin, M. Jacobs, H. Thind, Nicole J. Champagne, Benyuan Liu, M. S. Golden, C. Osimo, N. Tracy, R. Massey\",\"doi\":\"10.15436/2378-6841.15.e004\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Rapid technological developments have led to the development of smartphones that combine the voice and text messaging functions of cellular phones with computing technology that can support Internet access and third-party applications[1]. Major smartphone platforms provide third-party developers with application programming interfaces that can be used to build special purpose applications referred to as native apps[1]. To an increasing extent, smartphones are gaining widespread use in health promotion research and practice. For example, smartphone apps have been developed and shown to be effective for promoting healthy diet and nutrition, weight control, physical activity, and other behaviors associated with reduced risk of breast cancer and a variety of other chronic diseases[2,3]. Smartphone apps for promoting healthy behaviors should be based on health behavior theories and frameworks and include evidence-based features such as positive reinforcement and self-monitoring. Several web-based databases --for example, the Chemical Hazard and Alternatives Toolbox (ChemHat), the Pharos Project, Haz-Map, the U.S. Library of Medicine’s Genetic Toxicology Database (GENE-TOX), Environmental Working Group resources, and the California State Office of Environmental Health Hazard Assessment’s Proposition 65 list of chemicals[4-9] have been developed for providing information about toxic chemicals, including known or suspected breast cancer carcinogens. Not all of these databases, however, are intended for use by lay persons who are not well-versed in toxicology, occupational health and safety, or environmental epidemiology, and some key resources require a paid subscription. In a synthesis of scientific data from national and international sources, Silent Spring Institute researchers identified 216 chemicals that caused increased mammary tumors in an animal study[10]. An estimated 100 of these chemicals are likely common sources of exposure in everyday life. For example, people are exposed to carcinogenic polycyclic aromatic hydrocarbons (PAHs) in grilled and smoked food, tobacco smoke, and air pollution from auto exhaust. Ethylene oxide is used in hospitals and other medical facilities to sterilize instruments[10]. Mammary carcinogens are also found in certain furniture finishes, dyes, and solvents. Although conclusive evidence from epidemiologic studies is lacking, it is plausible that exposures to chemicals with estrogenic or other properties relevant to sex steroid activity (e.g., bisphenol A, polybrominated diphenyl ethers, and certain dioxins or dioxin-like compounds) could influence breast cancer risk if the exposures occur at critical life stages or in combination with exposure to similar chemicals[11]. 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On the Need for Research-Tested Smartphone Applications for Reducing Exposures to Known or Suspected Breast Carcinogens in Work and Home Environments.
Rapid technological developments have led to the development of smartphones that combine the voice and text messaging functions of cellular phones with computing technology that can support Internet access and third-party applications[1]. Major smartphone platforms provide third-party developers with application programming interfaces that can be used to build special purpose applications referred to as native apps[1]. To an increasing extent, smartphones are gaining widespread use in health promotion research and practice. For example, smartphone apps have been developed and shown to be effective for promoting healthy diet and nutrition, weight control, physical activity, and other behaviors associated with reduced risk of breast cancer and a variety of other chronic diseases[2,3]. Smartphone apps for promoting healthy behaviors should be based on health behavior theories and frameworks and include evidence-based features such as positive reinforcement and self-monitoring. Several web-based databases --for example, the Chemical Hazard and Alternatives Toolbox (ChemHat), the Pharos Project, Haz-Map, the U.S. Library of Medicine’s Genetic Toxicology Database (GENE-TOX), Environmental Working Group resources, and the California State Office of Environmental Health Hazard Assessment’s Proposition 65 list of chemicals[4-9] have been developed for providing information about toxic chemicals, including known or suspected breast cancer carcinogens. Not all of these databases, however, are intended for use by lay persons who are not well-versed in toxicology, occupational health and safety, or environmental epidemiology, and some key resources require a paid subscription. In a synthesis of scientific data from national and international sources, Silent Spring Institute researchers identified 216 chemicals that caused increased mammary tumors in an animal study[10]. An estimated 100 of these chemicals are likely common sources of exposure in everyday life. For example, people are exposed to carcinogenic polycyclic aromatic hydrocarbons (PAHs) in grilled and smoked food, tobacco smoke, and air pollution from auto exhaust. Ethylene oxide is used in hospitals and other medical facilities to sterilize instruments[10]. Mammary carcinogens are also found in certain furniture finishes, dyes, and solvents. Although conclusive evidence from epidemiologic studies is lacking, it is plausible that exposures to chemicals with estrogenic or other properties relevant to sex steroid activity (e.g., bisphenol A, polybrominated diphenyl ethers, and certain dioxins or dioxin-like compounds) could influence breast cancer risk if the exposures occur at critical life stages or in combination with exposure to similar chemicals[11]. Several studies have found an association between shift work and disruption of the circadian rhythm and risk of breast cancer[12].