Levels of Carbon Monoxide Expiratory Air on Shisha Users and the Factors Affecting
DOI:
https://doi.org/10.36497/jri.v39i1.38Keywords:
Shisha, Smokers, expiratory air CO levelsAbstract
Background: Shisha is one method of consuming tobacco similar to cigarette but in a different form. Lately it became a trend in Indonesian people, especially teenagers, without knowing any hazards contained in shisha which could cause cancer or even death. Lack of study about shisha in Indonesia was the main reason to do this study so further impact of shisha could be understood. Methodology: This study was analytical observational with cross sectional design. Data of this study was obtained from examination using CO analyzer and from questionnaire filling by respondents from the shisha Bogor community and smokers in Bogor. Results: Among 60 samples we obtained mean expiratory air CO levels of 8,62 ppm for smokers and 20,67 ppm for shisha users. There were also a significant correlation between shisha consumption duration per times and CO expiratory air levels, with P-value of 0,004 and odds ratio 12,52. Conclusion: Expiratory air CO levels in shisha users were higher than smokers, also there were a significant correlation between shisha consumption duration per times and the increasing levels of expiratory air CO. (J Respir Indo 2019; 39(1): 37-43)Downloads
References
Wardhana WA. Dampak pencemaran lingkungan. Yogyakarta: Andi; 2004:24-5.
Mukono HJ. Pencemaran udara dan pengaruhnya terhadap gangguan saluran pernapasan. Surabaya: Airlangga University Press; 1997:35.
Perhimpunan Dokter Paru Indonesia. PPOK pedoman praktis diagnosis dan penatalaksanaan di Indonesia. Jakarta: PDPI; 2011:15.
Zahran FM, Ardawi MS, Al-Fayez SF. Carboxyhemoglobin concentration in smokers of sheesha and cigarettes in Saudi Arabia. Br Med J (Clin Res Ed). 1985;291(6511):1768-70.
Lim BL, Lim GH, Seow E. Case of carbon monoxide poisoning after smoking shisha. Int J Emerg Med. 2009;2(2):121–2.
Prockop LD, Chichkova RI. Carbon monoxide intoxication: an update review. J Neurol Sci. 2007;262(1-2):122-30.
Melda. Prevalensi smoker’s melanosis pada kalangan petani. [Skripsi]. Makassar: Fakultas Kedokteran Gigi Universitas Hasanuddin. 2014.
Inayatillah IR, Syahrudin E, Susanto AD. Kadar karbon monoksida udara ekspirasi pada perokok dan bukan perokok serta faktor-faktor yang mempengaruhi. J Respir Indo. 2014;34(4):180-90.
Wiratmoko MR, Susanto AD, Yunus F, Ginting TT. Efikasi penggunaan varenicline pada program berhenti merokok uji acak tersamar tunggal plasebo kontrol. J Respir Indo. 2017;37(2):145-56.
World Health Organization. WHO study group on tobacco product (TobReg). Italy: WHO Press; 2013:27-8.
Sight S, Soumya M, Saini A, Mittal V, Singh UV, Singh V. Breath carbon monoxide levels in different forms of smoking. Indian J Chest Dis Allied Sci. 2011;53:25-8.
Septedjian E, Halim RA, Salman R, Jaroudi E, Shihadeh A, Saliba NA. Phenolic compounds in particles of mainstream waterpipe smoke. Nicotine Tob Res. 2013;15(6):1107-12.
Carroll MV, Shensa A, Primack BA. A comparison of cigarette- and hookah-related videos on YouTube. Tob Control. 2013;22(5):319–323.
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