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Determination of Benzene and Toluene In Exhaled Cigarette Smoke

S Moldoveanu
S Moldoveanu
, 
W III Coleman
W III Coleman
 e 
J Wilkins
J Wilkins
   | 30 dic 2014
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Pubblicato online: 30 dic 2014
Pagine: 107 - 114
Ricevuto: 04 mar 2007
Accettato: 09 ott 2007
DOI: https://doi.org/10.2478/cttr-2013-0853
© 2008 Beiträge zur Tabakforschung International
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

1. Lehmann, K.B.: Untersuchungen im Rauch des Tabaks [Investigation of the smoke from tobacco]; München med. Wochenschrift LV (1908) 723–725.Search in Google Scholar

2. Isaac, R.F. and M.J. Rand: Cigarette smoking and plas-ma levels of nicotine; Nature 236 (1972) 308–310.Search in Google Scholar

3. McAughey, J.J., D.K. Knight, A. Black, and C.J. Dickens: Environmental tobacco smoke retention in humans from measurements of exhaled smoke compo-sition; Inhalat. Toxicol. 6 (1994) 615–631.Search in Google Scholar

4. Armitage, A.K., C.T. Dollery, C.F. George, T.H. House-man, P.J. Lewis, and D.M. Turner: Absorbtion and metabolism of nicotine from cigarettes; Brit. Med. J. 4 (1975) 313–316.Search in Google Scholar

5. Gori, G.B., N.L. Benowitz, and C.J. Lynch: Mouth versus deep airways absorption of nicotine in cigarette smokers; Pharmacol. Biochem. Behav. 25 (1986) 1181–1184.Search in Google Scholar

6. Armitage, A.K., M. Dixon, B.E. Frost, D.C. Mariner, and N.M. Sinclair: The effect of tobacco blend additives on the retention of nicotine and solanesol in the human respiratory tract and on subsequent plasma nicotine con-centrations during cigarette smoking; Chem. Res. Toxi-col. 17 (2004) 537–544.Search in Google Scholar

7. Armitage, A.K., M. Dixon, B.E. Frost, D.C. Mariner, and N.M. Sinclair: The effect of inhalation volume and breath-hold duration on the retention of nicotine and solanesol in the human respiratory tract and on sub-sequent plasma nicotine concentrations during cigarette smoking; Beitr. Tabakforsch. Int. 21 (2004) 240–249.Search in Google Scholar

8. Bernstein, D.M.: A review of the influence of particle size, puff volume, and inhalation pattern on the deposition of cigarette smoke particles in the respiratory tract; Inhalat. Toxicol. 16 (2004) 675–689.Search in Google Scholar

9. Broday, D.M. and P.G. Georgopoulos: Growth and deposition of hygroscopic particulate matter in the human lung; Aerosol. Sci. Tech. 34 (2001) 144–159.Search in Google Scholar

10. Davies, C.N.: Deposition of inhaled particles in man; Chemistry and Industry (1974) 441–444.Search in Google Scholar

11. Robinson, R.J., and C.P. Yu: Deposition of cigarette smoke particles in the human respiratory tract; Aerosol. Sci. Tech. 34 (2001) 202–215.Search in Google Scholar

12. Hinds, W., M.W. First, G.L. Huber, and J.W. Shea: A method for measuring the deposition of cigarette smoke during smoking; Am. Ind. Hyg. Assoc. J. 44 (1983) 113–118.Search in Google Scholar

13. Dalhamn, T., M.-L. Edfors, and R. Rylander: Mouth ab-sorption of various compounds in cigarette smoke; Arch. Environ. Health. 16 (1968) 831–835.Search in Google Scholar

14. Dalhamn, T., M.-L. Edfors, and R. Rylander: Retention of cigarette smoke components in human lungs; Arch. Environ. Health. 17 (1968) 746–748.Search in Google Scholar

15. Baker, R.R., and M. Dixon: The retention of tobacco smoke constituents in the human respiratory tract; Inhal. Toxicol. 18 (2006) 255–294.Search in Google Scholar

16. Laskowski, K.: Components of tobacco smoke and their absorption in the respiratory system of the smoker; Rocz. Pa½stw. Zak. Hig. [Ann. Natl. Inst. Hyg.] 2 (1951) 139–160.Search in Google Scholar

17. Haagen-Smith A. J., M.F. Brunelle, and J. Hara: Nitro-gen oxide content of smokers from different types of tobacco; A.M.A. Arch. Ind. Health, 20 (1959) 399–400.Search in Google Scholar

18. Eagle, J.L., Jr.: Retention of inhaled acetaldehyde in man; J. Pharm. Acol. Exp. Therapeut. 174 (1970) 14–19.Search in Google Scholar

19. Ingebrethsen, B.J.: The physical properties of main-stream cigarette smoke and their relationship to deposition in the respiratory tract; in: Extrapolation of dosi-metric relationship for inhaled particles and gases, edited by J.D. Carpo, E.D. Smolko, F.J. Miller, J.A. Graham, and A.W. Haye, Academic Press, New York, 1989, pp. 125–141.Search in Google Scholar

20. Feng. S., S.E. Plunkett, K. Lam, S. Kapur, R. Muham-mad, Y. Jin, M. Zimmermann, P. Mendes, R. Kinser, and H.J. Roethig: A new method for estimating the retention of selected smoke constituents in the respiratory tract of smokers during cigarette smoking; Inhal. Toxicol. 19 (2006) 169–179.Search in Google Scholar

21. Moldoveanu, S.C., and F.K. St. Charles: Differences in the chemical composition of particulate phase of in-haled and exhaled cigarette smoke; Beitr. Tabakforsch. Int. 22 (2007) 290–302.Search in Google Scholar

22. Moldoveanu, S.C, W. Coleman III, and J.M. Wilkins: Determination of carbonyl compounds in exhaled ciga-rette smoke; Beitr. Tabakforsch. Int. 22 (2007) 346–357.Search in Google Scholar

23. Moldoveanu, S.C, W. Coleman III, and J.M. Wilkins: Determination of polycyclic aromatic hydrocarbons in exhaled cigarette smoke; Beitr. Tabakforsch. Int. 23 (2008) 84–96.Search in Google Scholar

24. Moldoveanu, S.C, W. Coleman III, and J.M. Wilkins: Determination of hydroxybenzenes in exhaled cigarette smoke; Beitr. Tabakforsch. Int. 23 (2008) 97–105.Search in Google Scholar

25. Pillsbury, H.C., C.C. Bright, K.J. O'Connor, and F.W. Irish: Tar and nicotine in cigarette smoke; J. Assoc. Off. Anal. Chem. 52 (1969) 458–462.Search in Google Scholar

26. Connoly, G.N., H. Saxner: Memorandum, The Com-monwealth of Massachusetts; Exec. Office of Health and Human Services, 19 August, 1997.Search in Google Scholar

27. St. Charles, F.K.: A robust method for determining con-sumer smoked cigarette yields from filter analytical data; 55th Tobacco Science Research Conference, Program Booklet and Abstracts, Vol. 55, Paper No. 92, 2001, pp. 73–74.Search in Google Scholar

28. Bodnar, J.A., T.J. Collins, S.M. DeBusk, and M.F. Bor-gerding: Estimation of ‘tar’ and nicotine yields from individual cigarettes based on filter analysis after smoking; 58th Tobacco Science Research Conference, Program Booklet and Abstracts, Vol.58, Paper No. 8, 2004, p 25.Search in Google Scholar

29. ISO 10315: Cigarettes – determination of nicotine in smoke condensates – gas chromatographic method; Second Edition 2000-04-01, International Organization for Standardization, Geneva, Switzerland, 2000 (E).Search in Google Scholar

30. Dong, J.-Z., J.N. Glass, S.C. Moldoveanu: A simple GC-MS technique for the analysis of vapor phase mainstream cigarette smoke; J. Microcol. Sep. 12 (2000) 142–152.Search in Google Scholar

31. Chen, P.X., S.C. Moldoveanu: Mainstream smoke chemical analysis for 2R4F Kentucky reference ciga-rettes; Beitr. Tabakforsch. Int. 20 (2003) 448–458.Search in Google Scholar

32. Borgerding, M.F., Bodnar, J.A., Chung, H.L., Mangan, P.P., Mossison, C.C., Risner, C.H., Rogers, J.C., Simmons, D.F., Uhrig, M.S., Wendelboe, F.N., Wingate D.E., and Winkler L.S.: Chemical and biological studies of a new cigarette that primarily heats tobacco. Part I. Chemical composition of mainstream smoke; Food Chem. Toxicol. 36 (1997) 169–182.Search in Google Scholar

33. Backhurst, J.D. and C.T. Martin: Retention of vapor phase constituents of cigarette smoke by the smoker – method development; BAT Report L 425-R (1973) as referenced in (15).Search in Google Scholar

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