Explore      health data resources and determine morbidity, mortality, incidence,      prevalence, exposures, and costs to society as they relate to your chosen      environmental agent or genetic factor.

To prepare:

  • Review      the Learning Resources and select one environmental agent or one genetic      factor and an associated population health problem. For example, you might      consider lead paint and its effect on children, air pollution and its      effect on individuals with asthma, genetic associations of various      cancers, etc.
  • Conduct      additional research using the Walden Library and credible websites,      reviewing the literature on your selected health problem and the relevant      environmental agent or genetic factor.
  • Explore      health data resources and determine morbidity, mortality, incidence,      prevalence, exposures, and costs to society as they relate to your chosen      environmental agent or genetic factor.
  • How      might your chosen environmental or genetic factor result in health      disparities in populations?
By tomorrow 03/272018 3pm, write a minimum of 550 words in APA format with at least 3 scholarly references from the list of required readings below. Include the level one headings as numbered below” Post a cohesive scholarly response that addresses the following: 1) Identify the environmental agent or genetic factor that you selected and the population health problem with which it is associated. 2) Evaluate the significance of the health risk resulting from your selected environmental agent or genetic factor, discussing such aspects as morbidity, mortality, incidence, prevalence, exposures, and costs to society. Support your response with references and data. 3) How might the environmental or genetic factor you identified result in health disparities in populations? Required Readings Friis, R. H., & Sellers, T. A. (2014). Epidemiology for public health practice (5th ed.). Sudbury, MA: Jones & Bartlett. Chapter 13, “Epidemiologic Aspects of Work and the Environment” Chapter 14, “Molecular and Genetic Epidemiology” Chapter 13 examines the impact of the environment on human health in populations as determined through the use of epidemiologic methods. In Chapter 14, the authors address molecular and genetic epidemiology, rapidly growing areas of this field. Hill, A. B. (1965). The environment and disease: Association or causation? Proceedings of the Royal Society of Medicine, 58(5), 295–300. Retrieved from http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1898525/pdf/procrsmed00196-0010.pdf In this landmark contribution, Sir Austin Bradford Hill delineated a series of criteria for evaluating whether an observed association between an exposure and an outcome should be considered causal. Hines, A. B. (2011). Asthma: A health disparity among African American children: The impact and implications for pediatric nurses. Journal of Pediatric Nursing, 26(1), 25–33. In this article, the author examines asthma, the most common chronic illness among children, and notes that this health issue is particularly relevant for pediatric nurses. The author addresses the significant health disparity for African-American children and their families. Quansah, R., & Jaakkola, J. J. (2010). Occupational exposures and adverse pregnancy outcomes among nurses: A systematic review and meta-analysis. Journal of Women’s Health, 19(10), 1851–1862. Synthesizing epidemiological evidence, the authors of this article examine the association between occupational exposures and adverse pregnancy outcomes for those working in the nursing profession. Vieira, V. M., Hart, J. E., Webster, T. F., Weinberg, J., Puett, R., Laden, F., Costenbader, K. H., & Karlson, E. W. (2010). Association between residences in U.S. northern latitudes and rheumatoid arthritis: A spatial analysis of the Nurses’ Health Study. Environmental Health Perspectives, 118(7), 957–961. The authors of this article utilize spatial analysis to visualize geographic variation in rheumatoid arthritis risk—a method, they note, that is particularly useful for generating hypotheses for further investigation and supporting existing hypotheses. Required Media Laureate Education (Producer). (2012). Epidemiology and population health: Epidemiologic applications: Environmental and genetic factors [Video file]. Baltimore, MD: Author. Note: The approximate length of this media piece is 7 minutes. In this week’s program, the presenters discuss the influence of environmental and genetic factors on population health. Optional Resources Rothman, K. J., & Greenland, S. (2005). Causation and causal inference in epidemiology. American Journal of Public Health, 95(Suppl. 1), S144–S150.]]>