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The benefits of information system of water pollution at Bedadung river towards oral and dental health of the community


Objective: The purpose of creating the river water pollution information systems related to oral and dental health community is to facilitate the analysis of diseases caused by water pollution.Material and Methods: The Environment-based Health Management Information System based on GIS is based on real data of Bedadung River-Jember Regency, East Java, Indonesia includes the location of the dumping points, photo dumping points, the area of garbage accumulation, and tooth and mouth disorders that arise due to contamination of river water, which is associated with community dental and oral health data that taken by survey.Results: Through the Environmental Health Information System information can be displayed about the environment and the dental and oral status of the population around the Bedadung river.Conclusion: The use of the Environment-Based Health Management Information System is very important to help support the government's decision to prevent the spread and severity of community diseases caused by river water pollution, reduce morbidity and mortality, and reduce the burden of government financing to treat diseases and disability integrated in an integrated manner.


  1. Haseena M, Malik MF, Javed A, et al. Water pollution
  2. and human health. Environ Risk Assess Remediat
  3. ;1: 16-19.
  4. Ruslinda Y, Indah S, Laylani W. Studi timbulan, komposisi
  5. dan karakteristik sampah domestik kota Bukittinggi.
  6. J UNAND 2012;9: 1-12.
  7. Bibi S, Khan RL, Nazir R. et al. Heavy metal analysis in
  8. drinking water of Lakki Marwat District KPK, Pakis-tan.
  9. World App Sci J 2016;34: 15-19.
  10. Briggs D. Environment pollution and the global burden of
  11. disease. British Med Bullet 2003;68: 1-24.
  12. Khan N, Hussain ST, Saboor A, et al. Physicochemical
  13. investigation of the drinking water sources from Mardan,
  14. Khyber Pakhtunkhwa, Pakistan. Int J Physical Sci 2013;8:
  15. -1671.
  16. Pawari MJ, Gawande S. Water pollution & its consequence.
  17. Int J Eng Res & General Sci 2015;3: 773-776.
  18. Purwati SU, Aryantie MH. Profil masyarakat dan lingkungannya
  19. sebagai modal membangun peran serta masyarakat
  20. dalam upaya pencegahan pencemaran lingkungan. J Ecolab
  21. ;10: 58-69.
  22. Chagas S. The new path of the oncology. Cancer Prev
  23. Curr Res J 2018;9: 150.
  24. Frahm KA, Waldman JK, Luthra S, et al. A comparison
  25. of the sexually dimorphic dexamethasone transcriptome
  26. in mouse cerebral cortical and hypothalamic embryonic
  27. neural stem cells. Mol Cell Endocrinol 2018;471: 22-32.
  28. Halder JN, Islam MN. Water pollution and its impact on
  29. the human health. J Environment & Human 2015;2: 36-46.
  30. Kamble RM. Water pollution and public health issues in
  31. Kolhapur City in Maharashtra. Int J Sci and Res Public
  32. ;4: 1-6.
  33. Gomez F, Corchuelo J, Curcio C, et al. SABE Colombia:
  34. Survey on health, well being and ageing in Colombia study
  35. design and protocol. Cur Gerontol & Geriat Res 2016;2016:
  36. Sun H, Wang N, Chen C, et al. Cadmium exposure and its
  37. association with serum uric acid and hyperurecemia. Sci
  38. Rep 2017;7: 550.
  39. Perdana WY, Jacobus DJ. Bisphenol A (BPA) adalah
  40. Endocrine Disrupture chemicals (EDC) yang ber-peran
  41. sebagai agen diabeto-genik. CDK-244 2016;43: 706-711.
  42. Lee DH, Steffes MW, Sjödin A, et al. Low dose of some
  43. persistent organic pollutants predicts type 2 diabetes: a
  44. nested case-control study. Environ Health Perspect
  45. ;118: 1235-1242.
  46. Quagliariello V, Rossetti S, Cavaliere C, et al. Metabolic
  47. syndrome, endocrine disruptors and prostate cancer association:
  48. biochemical and pathophysiological evidences.
  49. Onco-target 2017;8: 30606-30616.
  50. Burks H, Pashos N, Martin E, et al. Endocrine disruptors
  51. and the tumor microenvironment: a new
  52. paradigm in breast cancer biology. Mol Cell
  53. Endocrinol 2016;S0303-7207: 30508-30601
  54. Lee HM, Hwang KA, Choi KC. Diverse pathways of epithelial
  55. mesenchymal transi-tion related with cancer pro-gression
  56. and metastasis and potensial effects of endocrine
  57. disrupting chemical on epith-lial mesenchymal transi-tion
  58. process. Mol Cell Endocrinol 2017;457: 103-113.
  59. Zhang W, Liu QX, Lin JS. Prevenion from pollution of
  60. carcinogenic endocrine disrupting chemicals in water
  61. sources. Cancer Prev Curr Res J 2017;1: 111-117.
  62. Donato M, Cernera G, Giovannelli P, et al. Recent advances
  63. on bisphenol and endocrine disruptor effect on human
  64. prostate cancer. Mol Cell Endocrinol 2017;457: 35-42.
  65. Goncharov A, Bloom M, Pavuk M, et al. Blood pressure
  66. and hypertension in relation to levels of serum polychlorinated
  67. biphenyl in residents of annis-ton, alabama.
  68. J Hypertens 2010;28: 2053-2060.
  69. Goncharov A, Haase RF, Santiago-Rivera A, et al. High
  70. serum PCBs are associated with elevation of serum lipids
  71. and cardiovascular disease in a native American
  72. population. Environ Res 2008;106: 226-239.
  73. Castoldi AF, Johansson C, Onishchenko N, et al. Human
  74. developmental neurotoxicity of metalmercury: impact
  75. of variables and risk modifier. Regul Toxicol Pharmacol
  76. ;1: 201-214.
  77. Ndountse LT, Chan HM. Role of N-methyl-D-aspartate
  78. receptors in polychlorinated biphenyl mediated neuro-
  79. toxicity. Toxicol Lett 2009;184: 50-55.
  80. Schell LM, Gallo MV, Denham M, et al. Relationship
  81. of thyroid hormone levels to levels of polychlorinated
  82. bis-phenyl. Environ Health Perspect 2008;116: 806-813.
  83. Yan C-A, Zhang W, Zhang Z, et al. Assessment of water
  84. quality and. identification of polluted risky regions based
  85. on. Field Observations & GIS in the Honghe River.
  86. Watershed, China. PLoS 1 2015;10: e30-35.
  87. World Health Organization. Oral health surveys: basic
  88. methods. 5th edition. Switzerland: WHO Press, Geneva 27;
  89. p. 1-125.
  90. Akbar FH, Anwar AI. The correlation between
  91. denture usage satisfactions on quality life of the
  92. elderly. J Dentomaxillofac Sci 2017;2: 100-104.

How to Cite

Ernanda, H., Hamzah, Z., Setyowati, D. I., Handayani, A. T., & Indriana, T. (2018). The benefits of information system of water pollution at Bedadung river towards oral and dental health of the community. Journal of Dentomaxillofacial Science, 3(2), 91–95.