ANALYSIS OF TEMPERATURE, HUMIDITY AND HOUSE ENVIRONMENTAL CONDITIONS OF LEPTOSPIROSIS PATIENTS IN WORK AREA OF BANYUANYAR COMMUNITY HEALTH CENTER SAMPANG REGENCY, EAST JAVA, INDONESIA

Adinda Arum Sekarsari

doi:10.61841/6002bq43

Authors

Adinda Arum Sekarsari Department of Environmental Health, Faculty of Public Health, Universitas Airlangga,C Campus Mulyorejo, Surabaya, East Java, Indonesia Author

DOI:

https://doi.org/10.61841/6002bq43

Keywords:

Temperature, Humidity,, , House Environmental Conditions,, Leptospirosis

Abstract

Leptospirosis is a disease caused by Leptospira bacteria. This disease can be transmitted to humans due to contact with animals infected with Leptospira bacteria. Research Aims: This research aimed to analyze the temperature, humidity and house environmental conditions of leptospirosis patients in the work area of Banyuanyar Community Health Center Sampang Regency. Research Methods: This research was an observational research with cross sectional research design. The population in this research were leptospirosis patients in the area of Banyuanyar Community Health Center Sampang Regency. The method of taking a sample used total populated sampling that was all leptospirosis patients as many as 7 people. Temperature and humidity measurement used instruments called a Thermohygrometer and Stopwatch. Data collection was done by interviews, observations, and measurements. Data analysis used descriptive analysis The results of this research were that the total house temperature of leptospirosis patients (100%) did not qualify the requirements as well as the house humidity that did not qualify the requirements (85.7%). In the house environmental conditions of the patients, 100% of rats were found in the house of respondents affected by Leptospira. Rats in the respondents house were known based on signs of their presence such as sound, dirts, footprints, and direct appearance of the rat. Respondents affected by leptospirosis above 70% around their houses were affected by flood, conditions of overflowed sewers and the presence of puddles. This was in line with previous researchers, areas that have high flood vulnerability level will ease the Leptospira bacteria to enter the human body by swimming in flood water. The house environmental conditions of the respondents which there were floods (71.4%), puddles (85.7%), the conditions of overflowed ditch/sewer around the house (71.4%), poor dumpster conditions (57.1%). The house environmental conditions of patients had the potential to be a proliferation of Leptospira bacteria. The temperature and humidity at house of leptospirosis patients did not qualify the requirements, the house

environmental condition which there were presence of rats, had flood records, conditions of overflowed sewers and the presence of puddles. So that it will ease the Leptospira bacteria to enter the human body by swimming in flood water through wounds. Respondents should use dumpsters with waterproof materials and closed, routinely dispose the trash, set traps or rodenticides in places where it is potential for the rats.

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References

1. Rood EJJ, Goris MGA, Pijnacker R, Bakker MI, Hartskeerl RA. Environmental risk of leptospirosis infections in the Netherlands: Spatial modelling of environmental risk factors of leptospirosis in the Netherlands. PLoS One. 2017;12(10):1–11.

2. Setiawan I. Pemeriksaan Laboratory Examination for Diagnosing Leptospirosis. Vol. 18, Health Research and Development Media. 2008.

3. Munõz-Zanzi C, Mason M, Encina C, Gonzalez M, Berg S. Household characteristics associated with rodent presence and Leptospira infection in rural and urban communities from Southern Chile. Am J Trop Med Hyg. 2014;90(3):497–506.

4. Maisyaroh S, Pertiwi B, Setiani O. Environmental Factors Related to the Occurrence of Leptospirosis in Pati Central Java Environmental Factors related to Leptospirosis Cases in the District of Pati Central Java. 2014;13(2):51–7.

5. Riyaningsih, Hadisaputro S, Suhartono. Environmental Risk Factors for Leptospirosis in Central Java (Case Study in Semarang City, Demak and Pati District). J Kesehat Lingkung Indones. 2012;11(1):87– 94.

6. Premdas AK, Areekal B, Sukumaran ST. Trend of leptospirosis and its association with meteorological factors in Thrissur district , Kerala. 2019;6(11):4857–62.

7. Jittimanee J, Wongbutdee J. Prevention and control of leptospirosis in people and surveillance of the pathogenic Leptospira in rats and in surface water found at villages. J Infect Public Health [Internet]. 2019;12(5):705–11. Available from: https://doi.org/10.1016/j.jiph.2019.03.019

8. Marquez A, Ulivieri T, Benoit E, Kodjo A, Lattard V. House Mice as a Real Sanitary Threat of Human and Animal Leptospirosis: Proposal for Integrated Management. Biomed Res Int. 2019;2019.

9. Amin LZ. Leptospirosis. 2016;43(8):576–80.

10. Nordholm AC, Omland LH, Villumsen S, Al-Subeihe I, Katzenstein TL. Leptospirosis meningitis transmission from a pet mouse: a case report. J Med Case Rep. 2019;13(1):1–4.

11. Sakundarno M, Bertolatti D, Maycock B, Spickett J, Dhaliwal S. Risk factors for leptospirosis infection in humans and implications for public health intervention in indonesia and the Asia-Pacific region. Asia- Pacific J Public Heal. 2014;26(1):15–32.

12. Health Ministry of RI. Indonesia Health Profile 2018 [Indonesia Health Profile 2018] [Internet]. 2019.

207 p. Available from: http://www.depkes.go.id/resources/download/pusdatin/profil-kesehatan- indonesia/Data-dan-Informasi_Profil-Kesehatan-Indonesia-2018.pdf

13. Mulyono A, Ristiyanto R, Rahardianingtyas E, Wicaksono putro DB, Joharina AS. PREVALENCE AND IDENTIFICATION OF PATHOGENIC Leptospira IN COMMENSAL RODENT FROM MAUMERE

FLORES ORIGIN. Vektora J Vektor dan Reserv Penyakit. 2016;8(1).

14. Bidang D, Jauh P. The center for remote sensing utilization is the deputy of remote sensing. 2016;(8).

15. Rejeki DSS, Nurlaela S, Octaviana D. Mapping and Analysis of Leptospirosis Risk Factors. Kesmas Natl Public Heal J. 2013;179.

16. Boey K, Shiokawa K, Rajeev S. Leptospira infection in rats: A literature review of global prevalence and distribution. PLoS Negl Trop Dis. 2019;13(8):1–24.

17. Yatbantoong N, Chaiyarat R. Factors associated with leptospirosis in domestic cattle in salakphra wildlife sanctuary, Thailand. Int J Environ Res Public Health. 2019;16(6).

18. Okatini M, Purwana R, I Made Djaja. Relationship between Environmental Factors and Individual Characteristics of Leptospirosis Disease in Jakarta, 2003-2005. Makara Kesehat. 2007;11(1):17–24.

19. Ramadhani, Tri ; Yunianto B. nhealthy residential environmental conditions are at risk of leptospirosis (case study in Semarang city). Health Research and Development Media for Health.. 2010;XX:46–54.

20. Tunissea A. Abiotic environmental factors in the incidence of leptospirosis. Research and Development Center P2B2 Banjarnegara. 2007;Serba serb.

21. Prihantoro, Teguh ; Siwiendrayanti A. Characteristics and Environmental Conditions of Leptospirosis Sufferers' Homes in the Work Area of Pegandan Health Center. J Heal Educ. 2017;2(2):185–91.

22. Health Ministry of Republic Indonesia. Regulations of Health Minister Republic Indonesia Number 1077 Year 2011 concerning Guidelines for Air Sanitation in House Spaces. 2011.

23. Ibrahim I. Bush and Mouse Fever Disease in Indonesia (Scrub Typus and Murine Typus in Indonesia). Zoonotic Bull Disease. 2010;9:11–5.

24. Arumsari W; DS; RH. Analysis of Abiotic Environmental Factors Affecting Leptospirosis in Rats in Sambiroto Village, Tembalang District, Semarang City. J Kesehat Masy. 2012;1(2):514–24.

25. Pratiwi N. Temporal and Spatial Analysis of Climate Elements, Population Density, Dearah Prone to Flooding and Leptospirosis Cases in DKI Jakarta 2007-2011. University of Indonesia; 2012.

26. Je S, Bourhy P, Cardinale E. Seasonality of Human Leptospirosis in Reunion Island ( Indian Ocean ) and Its Association with Meteorological Data. 2011;6(5).

27. Levett PN. Leptospirosis. Clin Microbiol Rev. 2001;14(2):296–326.

28. Guanawan ; Ananda F. Aspects of Thermal Comfort of the Public Middle School Building in the Maandau Region J Inovtek Polbeng. 2017;7(2).

29. Prasasti, Corie Indria ; Mukono j ; S. Effect of Air Quality in Air-Conditioned Rooms Against Health Problems.. J Kesehat Lingkung. 2005;1(2):160–70.

30. Nugroho A. Analysis of Environmental Factors in the Occurrence of Leptospirosis in Tulungagung Regency. Balaba 2015. 2015;11(2):73–80.

31. Juwita T, Purba A, Sulistyo SR, Teknik J, Teknik F, Mada UG. Forecasting Leptospirosis Cases in Yogyakarta City Using the Time Series Method and the Combination of Time Series and Bayesian Network. Semin Nas Tek Ind Univ Gadjah Mada. 2015;64–71.

32. Ardian AE; S. Factors Affecting Sick Building Syndrome in the Office Room. J Kesehat Lingkung. 2014;7(2):107–17.

33. Nugroho A, Joharina AS, Susanti L, No JH, Tengah J. Characteristics of Abiotic Environments and Potential Presence of Pathogenic Leptospires in Water in Extraordinary Occurrence of Leptospirosis in Semarang City. Vektora. 2017;9(1):37–42.

34. Darmawan, Kurnia ; Hani’ah ; Suprayogi A. A nalysis of Flood Hazard Rate in Sampang District Using Overlay Method with Scoring Based on Geographical Information System. J Geod Undip. 2017;6:31–40.

35. Binti Daud A, Mohd Fuzi NMH, Wan Mohammad WMZ, Amran F, Ismail N, Arshad MM, et al. Leptospirosis and workplace environmental risk factors among cattle farmers in northeastern Malaysia. Int J Occup Environ Med. 2018;9(2):88–96.

36. Wasiński B, Dutkiewicz J. Annals of agricultural and environmental medicine : AAEM. Ann Agric Environ Med [Internet]. 2013;20(2):239–44. Available from: http://www.aaem.pl/Leptospirosis-current- risk-factors-connected-with-human-activity-and-the-environment,71919,0,2.html

37. Mwachui MA, Crump L, Hartskeerl R, Zinsstag J. Environmental and Behavioural Determinants of Leptospirosis Transmission : A Systematic Review. 2015;1–15.

38. Schneider MC, Jancloes M, Buss DF, Aldighieri S, Bertherat E, Najera P, et al. Leptospirosis: A silent epidemic disease. Int J Environ Res Public Health. 2013;10(12):7229–34.

39. Rahayu, Siti ; Sakundarno, Mateus ; Dian L. Mapping Risk Factors for Leptospirosis Environment and Determination of Zones of Leptospirosis Vulnerability in Demak District Using Remote Sensing Image. J Kesehat Masy. 2017;5:218–25.

40. Rahim, Annisa ; Yudhastuti R. Mapping and analysis of environmental risk factors for leptospiros events based on geographic information systems (sig) in Sampang district. J Kesehat Lingkung. 2013;8:48–56.

41. Kuswati ; Suhartono ; Nurjazuli. istribution of Leptospirosis Cases in Demak Regency, Central Java. J Health Circle Indonesia. J Kesehat Lingkung Indones. 2016;15(2):56–61.

42. Pramestuti N, Djati AP, Kesuma AP. Leptospirosis Post-Flood in Pati Regency Year 2014. Research and Development Center P2B2 Banjarnegara. 2015;7:1–6.

43. Hadisaputro S, Sakundarno M. Environment and Behavior in Leptospirosis Events. Media Med Indones. 2009;43:306–11.

44. Setyorini L, Dangiran HL. Analysis of the Spread Pattern of Leptospirosis in Semarang City in 2014 - 2016. J Kesehat Masy. 2017;5(5).

45. Kane SN, Mishra A, Dutta AK. Preface: International Conference on Recent Trends in Physics (ICRTP 2016). J Phys Conf Ser. 2016;755(1).

46. Samekto, Marek ; Hadisaputro, Suharyo ; Adi , Mateus Sakundarno; Suhartono ; Widjanarko B. Factors

that Influence the Occurrence of Leptospirosis (Case Control Study in Pati Regency). J Epidemiol Kesehat Komunitas. 2019;4(1):27–34.

47. Rusmini. Dangers of Leptospirosis (Rat Urinary Disease) & How to Prevent it. Yogyakarta: Gosyen Publishing; 2011.

48. Auliya R. Relationship Between PHBS Structure of Household Records and House Sanitation with Lepotospirosis. Unnes J Public Heal. 2014;3(3):1–10.

49. Sofiyani M, Mawardi MI, Purnomo PS, Adnani H. Relationship between Settlement Environment Conditions and Risk of Leptospirosis in Sleman Regency The Relationship of Residential Environment With The Risk of Leptospirosis in Sleman Regency. J Heal Sci prevemtion. 2017;1(2):85–92.

50. Rahayu S, Adi MS, Saraswati LD. Mapping of Leptospirosis Environmental Risk Factors and Determining the Level of Leptospirosis Vulnerable Zone in Demak District Using Remote Sensing Image. E3S Web Conf. 2018;31:1–9.

51. Guernier V, Goarant C, Benschop J, Lau CL. A systematic review of human and animal leptospirosis in the Pacific Islands reveals pathogen and reservoir diversity. Vol. 12, PLoS Neglected Tropical Diseases. 2018. 1–32 p.

52. Health Ministry od Republic Indonesia. Beware of the Seven Diseases of the Flooding Season [Internet]. 2020 [cited 2020 Jan 21]. Available from: www.ppid.depkes.go.id,

53. Mohammad irshad reza, divya goel, ziaur rahman, shaikh aamer (2018) microrna and rna binding proteins: the posttranscriptional regulators of foxo expression. Journal of Critical Reviews, 5 (2), 1-

9. doi:10.22159/jcr.2018v5i2.24774

54. Pradhan, R.K. Minimal neural recruitment from Stevens coding and Fechner decoding in the brain (2017) NeuroQuantology, 15 (1), pp. 86-91.

55. Song, D. Remarks on nondeterministic computation, choices, and formal language (2016) NeuroQuantology, 14 (4), pp. 702-707.