TY - JOUR
T1 - Direct measurement of toxicants inhaled by water pipe users in the natural environment using a real-time in situ sampling technique
AU - Katurji, M.
AU - Daher, N.
AU - Sheheitli, H.
AU - Saleh, R.
AU - Shihadeh, A.
PY - 2010/11/1
Y1 - 2010/11/1
N2 - While narghile water pipe smoking has become a global phenomenon, knowledge regarding its toxicant content and delivery, addictive properties, and health consequences is sorely lagging. One challenge in measuring toxicant content of the smoke in the laboratory is the large number of simplifying assumptions that must be made to model a "typical" smoking session using a smoking machine, resulting in uncertainty over the obtained toxicant yields. In this study, we develop an alternative approach in which smoke generated by a human water pipe user is sampled directly during the smoking session. The method, dubbed real-time in situ sampling (RINS), required developing a self-powered portable instrument capable of automatically sampling a fixed fraction of the smoke generated by the user. Instrument performance was validated in the laboratory, and the instrument was deployed in a field study involving 43 ad libitum water pipe use sessions in Beirut area cafés in which we measured inhaled nicotine, carbon monoxide (CO), and water pipe ma'ssel-derived "tar." We found that users drew a mean of 119L of smoke containing 150mg of CO, 4mg of nicotine, and 602mg of ma'ssel-derived "tar" during a single use session (mean duration61min). These first direct measurements of toxicant delivery demonstrate that ordinary water pipe use involves inhaling large quantities of CO, nicotine, and dry particulate matter. Results are compared with those obtained using the Beirut method smoking machine protocol.
AB - While narghile water pipe smoking has become a global phenomenon, knowledge regarding its toxicant content and delivery, addictive properties, and health consequences is sorely lagging. One challenge in measuring toxicant content of the smoke in the laboratory is the large number of simplifying assumptions that must be made to model a "typical" smoking session using a smoking machine, resulting in uncertainty over the obtained toxicant yields. In this study, we develop an alternative approach in which smoke generated by a human water pipe user is sampled directly during the smoking session. The method, dubbed real-time in situ sampling (RINS), required developing a self-powered portable instrument capable of automatically sampling a fixed fraction of the smoke generated by the user. Instrument performance was validated in the laboratory, and the instrument was deployed in a field study involving 43 ad libitum water pipe use sessions in Beirut area cafés in which we measured inhaled nicotine, carbon monoxide (CO), and water pipe ma'ssel-derived "tar." We found that users drew a mean of 119L of smoke containing 150mg of CO, 4mg of nicotine, and 602mg of ma'ssel-derived "tar" during a single use session (mean duration61min). These first direct measurements of toxicant delivery demonstrate that ordinary water pipe use involves inhaling large quantities of CO, nicotine, and dry particulate matter. Results are compared with those obtained using the Beirut method smoking machine protocol.
KW - CO
KW - hookah
KW - nicotine
KW - Particulate matter
KW - personal exposure
KW - shisha
KW - tobacco smoke
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U2 - 10.3109/08958378.2010.524265
DO - 10.3109/08958378.2010.524265
M3 - Article
C2 - 21062108
AN - SCOPUS:78649280182
SN - 0895-8378
VL - 22
SP - 1101
EP - 1109
JO - Inhalation Toxicology
JF - Inhalation Toxicology
IS - 13
ER -