GANGGUAN FUNGSI PARU DAN KADAR COTININE PADA URIN KARYAWAN YANG TERPAPAR ASAP ROKOK ORANG LAIN

Nurjanah Nurjanah; Lily Kresnowati; Abdun Mufid

doi:10.15294/kemas.v10i1.3069

GANGGUAN FUNGSI PARU DAN KADAR COTININE PADA URIN KARYAWAN YANG TERPAPAR ASAP ROKOK ORANG LAIN

Nurjanah Nurjanah⁽¹⁾, Lily Kresnowati⁽²⁾, Abdun Mufid⁽³⁾,

DOI: https://doi.org/10.15294/kemas.v10i1.3069

(1) Fakultas Kesehatan, Universitas Dian Nuswantoro, Semarang
(2) Fakultas Kesehatan, Universitas Dian Nuswantoro, Semarang
(3) Lembaga Pembinaan dan Perlindungan Konsumen Kota Semarang

Abstract

Survei pemantauan Kualitas Udara pada tahun 2011 di 78 tempat umum di Kota Semarang menunjukkan rata-rata PM2.5 di tempat-tempat yang diperbolehkan merokok adalah 94,76 mg/m3 dan di tempat-tempat yang tidak diperbolehkan merokok adalah 34,60 mg/m3. Café dan restoran adalah tempat umum dngan tingkat PM2.5 tertinggi. Rata-rata dari PM2.5 di restoran adalah 72,60mg/m3 dan di café 64,84mg/m3. Penelitian ini bertujuan untuk mengetahui efek paparan asap rokok terhadap fungsi paru dan cotinine urin karyawan cefe dan restoran di kota Semarang. Data dikumpulkan dari 13 cafe dan restoran dengan responden 70 orang karyawan non-perokok. Instrumen yang dipakai adalah spirometri, enzyme-linked immunosorbent assay (Elisa), aerosol sidepack, dan kuesioner. Hasil penelitian menunjukkan bahwa 20% responden mengalami restriksi ringan, 2,9% obstruksi ringan dan 2,9% obstruksi sedang. Rata-rata cotinine urine karyawan café adalah 42,902ng/ml dan karyawan restoran 33,609ng/ml. Rata-rata PM2.5 di café adalah 121,65 mg/m3 dan di restoran adalah 68,27μg/m3. Faktor-faktor yang berhubungan dengan cotinine urine adalah lama paparan SHS per hari (rho = 0,364, p-value = 0,002) dan perilaku merokok rekan kerja (p-value = 0,006). Umur berkorelasi dengan fungsi paru (rho = 0,272, p-value = 0,023) dan ada hubungan negative antara cotinine urin dan fungsi paru (rho = 0,266, p-value = 0.026).

Air Quality Monitoring Survey in 2011 at 78 public places in Semarang city showed the average of PM2.5 in places where smoking allowed was 94.76mg/m3 and in places where smoking not allowed smoking was 34.60mg/m3. Café and restaurant was the public places with the highest PM2.5 levels. The average of PM2.5 in restaurant was 72.60mg/m3 and 164.84mg/m3 in café. This research aims to determine effects of secondhand smoke exposure on lung function and urine cotinine levels of café and restaurant employee in the Semarang city. Data was collected from 13 cafes and restaurants and the respondents are 70 non-smokers employees. The instruments were spirometry, enzyme-linked immunosorbent assay (Elisa), sidepack aerosols, and questionnaire. The result showed that 20% of respondents had mild restriction, 2.9% mild obstruction and 2.9% moderate obstruction. The average level of urine cotinine of cafe employees was 42.902ng/ml and 33.609ng/ml in restaurants employees. The average of PM2.5 levels in the Cafe was 121.65 μg/m3 and in Restaurant was 68.27μg/m3. Factors related to urine cotinine were duration of SHS exposure per day (rho=0.364, p-value=0.002) and colleague smoking behavior (p-value=0.006). Age was correlated with lung function (rho=-0.272, p-value=0.023) and there was negative correla-tion between urine cotinine and lung function (rho=-0.266, p-value=0.026).

Keywords

Lung Function; Urine Cotinine; Secondh and Smoke

Full Text:

PDF

References

Cameron M, et.al. 2010. Secondhand smoke exposure (PM2.5) in outdoor dining areas and its correlates. Epub, 19(1):19-23.

Eisner, Mark D. 2009. Secondhand Smoke and Obstructive Lung Disease, A Causal Effect. American Journal of Respiratory and Critical Medicine, 179(11): 973-974.

Eisner, et.al. 2005. Lifetime Environmental Tobacco Smoke Exposure and The Risk of Chronic Obstructive Pulmonary Disease. Environmental Health 4(7).

Flouris, et al. 2009. Acute and Short-term Effects of Secondhand Smoke on Lung Function and Cytokine Production. American Journal of Respiratory and Critical Medicine, 179(11): 1029-1038.

Haris, Aila, Mukhtar Ikhsan, Rita Rogayah. 2012. Asap Rokok sebagai Bahan Pencemar dalam Ruangan. CDK, 189 (39).

Repace, et.al. 2006. Exposure to Second-Hand Smoke Air Pollution Assessed from Bar Patrons' Urinary Cotinine. Nicotine Tob Res 8 (5): 701-711.

Kim, et.al. 2004. Relationship between Environmental Tobacco Smoke and Urinary Cotinine Levels in Passive Smokers at Their Residence. Journal of Exposure Analysis and Environmental Epidemiology, 14 (5) .

Lai HK, et.al. 2011. Lung Function and Exposure to Workplace Second-hand Smoke During Exemptions from Smoking ban Legislation: an Exposure-response Relationship Based on Indoor PM2.5 and Urinary Cotinine Levels. Epub , 66(7):615-23

Okoli, et. al. 2007. Secondhand smoke and nicotine exposure: A brief review. Addictive Behaviors 32: 1977–1988.

Repace J. 2007. Respirable Particles and Carcinogens in the Air of Delaware Hospitality Venues Before and After a Smoking Ban. Journal of Occupational and Environmental Medicine, 46(9):887-905.

Takala J. 2005. Introductory report: decent work, safe work. International Labor Organization, Geneva. Available online at: http://www.ilo.org/public/english/protection/safework/ wdcongrs17/intrep.pdf. Diakses 11 April 2012

U.S. Centers for Disease Control and Prevention (CDC). 2008. Annual Smoking Attributable Mortality, Years of Potential Life Lost, and Productivity Losses in United States 2000-2004. Morbidity and Mortality Weekly Report (MMWR) 57(45).

Whincup PH et al. 2004. Passive smoking and risk of coronary heart disease and stroke: prospective study with cotinine measurement. British Medical Journal, 329(7459):200-5.

World Health Organization. 2004. International Agency for Research on Cancer. IARC Monographs on the Evaluation of Carcinogenic Risk to Humans, 83. Tobacco Smoke and Involuntary Smoking. Lyon, France.

Refbacks

There are currently no refbacks.

Username
Password
Remember me