An Application of Self-Health Risk Assessment among Populations Living in the Vicinity of a Fiber-Cement Roofing Factory
Authors: Phayong Thepaksorn
Abstract:
The objective of this study was to assess whether living in proximity to a roofing fiber cement factory in southern Thailand was associated with physical, mental, social, and spiritual health domains measured in a self-reported health risk assessment (HRA) questionnaire. A cross-sectional study was conducted among community members divided into two groups: near population (living within 0-2km of factory) and far population (living within 2-5km of factory) (N=198). A greater proportion of those living far from the factory (65.34%) reported physical health problems than the near group (51.04%) (p =0.032). This study has demonstrated that the near population group had higher proportion of participants with positive ratings on mental assessment (30.34%) and social health impacts (28.42%) than far population group (10.59% and 16.67%, respectively) (p <0.001). The near population group (29.79%) had similar proportion of participants with positive ratings in spiritual health impacts compared with far population group (27.08%). Among females, but not males, this study demonstrated that a higher proportion of the near population had a positive summative score for the self-HRA, which included all four health domain, compared to the far population (p<0.001 for females; p = 0.154 for males). In conclusion, this self-HRA of physical, mental, social, and spiritual health domains reflected the risk perceptions of populations living in the vicinity of the roofing fiber cement factory. This type of tool can bring attention to population concerns and complaints in the factory’s surrounding community. Our findings may contribute to future development of self-HRA for HIA development procedure in Thailand.
Keywords: Cement dust, health impact assessment, risk assessment, walk-though survey.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1099710
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1882References:
[1] Ernstsen, L., Nilsen, S. M., Espnes, G. A., Krokstad. S. (2011).The predictive ability of self-rated health on ischemic heart disease and allcause mortality in elderly women and men: the Nord-Trondelag Health Study (HUNT). Age Ageing, 40:105-11.
[2] McGee, D.L., Liao, Y., Cao, G., et al. (1999). Self-reported health status and mortality in a multiethnic US cohort. Am J Epidemiol, 149: 41–6.
[3] Singh-Manoux, A., Gue´guen, A., Martikainen, P., Ferrie, J., Marmot, M., Shipley, M. (2007). Self-rated health and mortality: short- and longterm associations in the Whitehall II Study. Psychosom Med, 69(2): 138-43.
[4] DeSalvo, K.B., Fan, V.S., McDonell, M.B., Fihn, S.D. (2005). Predicting mortality and healthcare utilization with a single question. Health ServRes, 40:1234-46.
[5] Lima-Costa, M., Cesar, C, Chor, D., Proietti, F.(2011). Self-rated health compared with objectively measured health status as a tool for mortality risk screening in older adults: 10-year follow-up of the Bambuı´ cohort study of aging. Am J Epi, 175: 228-35.
[6] Hengpraprom, S., Bualert, S., Sithisarankul, P. (2012).Testing a health impact assessment tool by assessing community opinion about a public park. Sea J Trop Med Pub Health. , 43: 229-35.
[7] Office of Natural Resources and Environment Policy and Planning (ONREPP) (2010), Ministry of Natural Resources and Enivironment. Guideline for environmental impact assessment in Thailand, J1 Adverting Pub.
[8] Health Impact Assessment Coordinating Unit (HIA Co-Unit), National Health Commission Office. (2010)Thailand’s rules and procedures for the health impact assessment of public policies; Wanida Press, 1-30.
[9] Cheungsatiensup, K. (2003). Spirituality and health: an initial proposal to incorporate spiritual health in health impact assessment. Env Imp Ass Review, 23: 3-15.
[10] Jindawattana, A., Sukkumnoed, D., Pengkam, S., Chuenchit, W., Mathurapote, W. (2008). HIA for HPP towards healthy nation: Thailand’s recent experienced. National Health Commission Office, Nonthaburi; Wanida Press.
[11] Mahaphant Fiber-Cement Public Co, Ltd. (MSC). (2011). Naborn branch; Manual for Production of Roofing Cement, 1-35.
[12] Thepaksorn, P., Pongpanich, S., Chapman, R.S., W. (2013). Determining occupational health risks and hazards at roofing cement processing factory. J Health Res, 27(3):173-180.
[13] Thepaksorn, P., Pongpanich, S., Siriwong, W., Chapman, R.S., Taneepanichskul, S. (2013). Respiratory symptoms and patterns of pulmonary dysfunction among roofing fiber cement workers in the South of Thailand. J Occ Health, 55:21-28.
[14] Forgate, G.T. (2009). Practical sample size calculation for surveillance and diagnostic investigations. J Vet Diagn Invest, 21: 3-14.
[15] Janthasoon, C. (2004). Impact on human health from cement factory in Lumpang Province. Chiangmai University.
[16] Phoolcharoen, W., Sukkumnoed, D., Kessomboon, P. (2003). Development of health impact assessments in Thailand; recent experiences and challenges. Bull World Health Organ, 81: 465-8.
[17] Information and communication technology center, Ministry of Public Health. (2008). Java health centre information system (JHCIS1-102).