Open Access

The Transfer of Nicotine from Nicotine Salts to Mainstream Smoke

TA Perfetti
TA Perfetti
, 
AB Norman
AB Norman
, 
BM Gordon
BM Gordon
, 
WM Coleman III
WM Coleman III
, 
WT Morgan
WT Morgan
, 
GM Dull
GM Dull
 and 
CW Miller
CW Miller
   | Dec 30, 2014
Contributions to Tobacco & Nicotine Research's Cover Image
About this article
Previous Article
Next Article
Cite
Published Online: Dec 30, 2014
Page range: 141 - 158
Received: Mar 30, 2000
Accepted: Aug 23, 2000
DOI: https://doi.org/10.2478/cttr-2013-0702
© 2014 Beiträge zur Tabakforschung International
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

1. Huber, G.L: Physical, chemical and biological proper-ties of tobacco, cigarette smoke, and other tobacco products; Semin. Respir. Med. 10 (1989) 297-332.Search in Google Scholar

2. Townsend, D.E: The effect of tobacco moisture on the removal of cigarette smoke by the tobacco rod; 37th Tob. Chem. Res Conf, Washington, DC, paper 27,1983; and: Baker, R.R.: Smoke chemistry; in: Tobacco: production, chemistry and technology; edited by D.L. Davis and M. T. Nielson, Blackwell Science Ltd., Oxford, 1999, 398-439, see p. 404.Search in Google Scholar

3. Baker, R.R: Product formation mechanisms inside a burning cigarette; Próg. Energy Combustion Sci. 7 (1981)135-153.Search in Google Scholar

4. Jenkins, R.W. Jr: The use of nuclear radiation in chemical mechanistic studies; Proceedings of the International Conference on the Physical and Chemical Processes Occurring in a Burning Cigarette, R.J. Reynolds Tobacco Co, Winston-Salem, NC, 1987, pp. 155-228.Search in Google Scholar

5. Jenkins, R.W. Jr, R.A. Comes, and R.T. Bass: The use of carbon-14 labeled compounds in smoke precur-sor studies - a review; Rec. Adv. Tob. Sci. (1976) 1-30.Search in Google Scholar

6. Larson, P.S. and E.S. Harlow: Some current applications of carbon-14 to animal and human physiological research studies with tobacco and its constituents; Radioisot. Sci. Res. 3 (1958) 62-78.Search in Google Scholar

7. Rustemeier, K and J.-J. Piadć: Determination of nicotine in mainstream and sidestream cigarette smoke; m: Analytical determination of nicotine and related compounds and their metabolites, edited by J.W. Gorrod and P.J. Jacob, III, Elsevier, Oxford, 1999,489-529.10.1016/B978-044450095-3/50013-9Search in Google Scholar

8. Schmeltz, I, A. Wenger, D. Hoffmann, and T.C. Tso: Chemical studies on tobacco smoke. 63. On the fate of nicotine during pyrolysis and in a burning cigarette; J. Agric. Food Chem. 27 (1979) 602-608.Search in Google Scholar

9. Jenkins, R.W. Jr, R.H. Newman, and M.K. Chavis: Smoke distribution and mainstream pyrolytic compo-sition of added 14C-menthol (U); Beitr. Tabakforsch. 5(1970)299-301.Search in Google Scholar

10. CurranJ.G. andJ.E. Kiefer: A method for measuring the elution of nicotine and total particulate matter from a cigarette filter; Beitr. Tabakforsch. 7 (1973) 29-35.Search in Google Scholar

11. Newell, M.P, P.H. Latimer, and R.J. Haefele: The fate of oxalic, malic and citric acids in the smoke of cigarettes; 22nd Tob. Chem. Res. Conf, Richmond, VA, paper 24, 1968.Search in Google Scholar

12. Davis, D.L, P.B. Bush, C. Grunwald, andP.L. Cor-nelius: Transfer of exogenously applied and endogenous alkaloids and sterols from tobacco to its smoke condensate; J. Agric. Food Chem. 25 (1977) 752-756.Search in Google Scholar

13. Houseman, T.H.: Studies of cigarette smoke transfer using radioisotopically labelled tobacco constituents. Part II: The transference of radioisotopically labelled nicotine to cigarette smoke; Beitr. Tabakforsch. 7 (1973)142-147.Search in Google Scholar

14. Kobashi, Y, S. Sakaguchi, andM. Isawa: Combustion temperatures of some unblended cigarettes and the transfer of nicotine into cigarette smoke; Buli. Agr. Chem. Soc. Japan 24 (1960) 274-277.Search in Google Scholar

15. Thornton, R.E. and S.R. Massey: Some effects of adding sugar to tobacco; Beitr. Tabakforsch. 8 (1975) 11-15.Search in Google Scholar

16. Tso, T.C. and J. Chaplin: Simple correlation and multiple regression among leaf characteristics, smoke components, and biological responses of bright tobaccos; USDA Tech. Bulletin No. 1551, 1977.Search in Google Scholar

17. Perfetti, T. A.: Structural study of nicotine salts; Beitr. Tabakforsch. Int. 12 (1983) 43-54.Search in Google Scholar

18. Betts, T.E.: Sugar in tobacco - its effect on smoke pH; Laboratory Prac. 30 (1981) 346-348.Search in Google Scholar

19. Jenkins, R.W. Jr. and R.A. Comes: Exogenous vs. endogenous transfer of nicotine during smoking; Int. J. Appl. Radiation. Isot. 27 (1976) 323-324.Search in Google Scholar

20. Wynder, E.L. and D. Hoffmann: Tobacco and tobacco smoke. Studies in experimental carcino-genesis. Academic Press, New York, NY, 1967, pp. 127-128, pp. 545-575.Search in Google Scholar

21. Morie, G.P.: Fraction of protonated and unproto-nated nicotine in tobacco smoke at various pH values; Tob. Sci. 16 (167) 1972.Search in Google Scholar

22. Lewis, D.A., I. Colbeck, andD.C. Mariner: Diffusion denuder method for sampling vapor-phase nicotine in mainstream tobacco smoke; Anal. Chem. 66 (1994) 3525-3527.Search in Google Scholar

23. Lewis, D.A, I. Colbeck, andD.C. Mariner: Dilution of mainstream tobacco smoke and its effect upon the evaporative and diffusion of nicotine; Aerosol Sci. 26 (1995) 841-846.Search in Google Scholar

24. Morie, G.P.: Computer program for the calculation of concentrations of chemical species present in tobacco smoke at various pH values; Technical Report from Filter Products Research Laboratory, Eastman Chemical Co., Kingsport, TN, FTR-14.Search in Google Scholar

25. Seeman, J.I, J.A. Fournier, and J.B. Paine III: Ther-mal transfer of nicotine and nicotine salts to nicotine in the gas phase; J. Agric. Food Chem. 47 (1999) 5133-5145.Search in Google Scholar

26. Stevens, N.A. andM.F. Borgerding: GC-AED studies of nicotine fate in a burning cigarette; Anal. Chem. 71 (1999) 2179-2185.Search in Google Scholar

27. Perfetti, T.A, W.M. Coleman III, and W.S. Smith: Determination of mainstream and sidestream cigarette smoke components for cigarettes of different tobacco types and a set of Reference cigarettes; Beitr. Tabakforsch. Int. 18 (1998) 95-113.Search in Google Scholar

28. Perkins, P.R. and CR. Bales: Nicotine fortification of smoking products; U.S. Patent 3,861,400 to Imperial Tobacco Group Ltd., London, England, January 21, 1975.Search in Google Scholar

29. Pillsbury, H.C., CC. Bright, K.J. 0'Connor and F.W. Irish: Tar and nicotine in cigarette smoke; J. Assoc. Off. Anal. Chem. 52 (1969) 458-462.Search in Google Scholar

30. Diana, J.N., and A. Vaught: The research cigarette; The Tobacco and Health Research Institute, Lexing-ton, KY, 1990.Search in Google Scholar

31. Green, CR. and A. Rodgman: The Tobacco Chem-ists’ Research Conference: A half century forum for advances in analytical methodology of tobacco and its products; Rec. Adv. Tob. Sci. 22 (1996) 131-304.Search in Google Scholar

32. Bowman, E.R, H. McKennis, Jr, and B.R. Martin: A convenient method for the preparation of racemic nicotine; Synth. Commun. 12 (87) (1982) 1-879.Search in Google Scholar

33. Crooks, P.A, CS. Godin, and W.F. Pool: Enantio-meric purity of nicotine in tobacco smoke conden-sate; Med. Sci. Res. 20 (1992) 879-880.Search in Google Scholar

34. Perfetti, T.A. and W.M. Coleman, III: Chiral-gas chromatography-selected ion monitoring - mass selective detection analysis of tobacco materials and tobacco smoke; Beitr. Tabakforsch. Int. 18 (1998) 15-33.Search in Google Scholar

35. Perfetti, T.A. and W.M. Coleman, III: Chiral-gas chromatography-selected ion monitoring - mass selective detection analysis of secondary alkaloids in tobacco and tobacco smoke; Beitr. Tabakforsch. Int. 18 (1998) 35-42.Search in Google Scholar

36. Tso, T.C: Production, physiology, andbiochemistry of tobacco plant; Ideał, Beltsville, MD, 1990, p. 428.Search in Google Scholar

37. Piadć, J.J. and D. Hoffmann: Chemical studies on tobacco smoke, LXVII. Quantitative determination of alkaloids in tobacco by liquid chromatography; J. Liquid Chromatogr. 3 (1980) 1505-1515.Search in Google Scholar

38. Warfield, A.H, W.D. Galloway, and A.G. Kallianos: Some new alkaloids from Burley tobacco; Phyto-chem. 11(1972) 3371-3375.Search in Google Scholar

39. Schumacher, J.N., CR. Green, F.W. Best, and M.P. Newell: Smoke composition - an extensive investigation of the water-soluble portion of cigarette smoke; J. Agric. Food Chem. 25 (1977) 310-320.Search in Google Scholar

40. Snook, M.E, O.T. Chortyk, and R.F. Arrendale: Isolation and identification of 7V-acylalkaloids of cigarette smoke; Beitr. Tabakforsch. Int. 12 (1984) 227-243.Search in Google Scholar

41. Burton, H.R, R.A. Andersen, P.D. Fleming, and L.R. Walton: Changes in chemical composition of burley tobacco during senescence and curing. 2. Acylatedpyridine alkaloids; J. Agric. Food Chem. 36 (1988) 579-584.Search in Google Scholar

42. Glenn, D.F. and W.B. Edwards III: Synthesis and mass spectrometry of some structurally related nicotinoids; J. Org. Chem. 43 (1978) 2860-2870.Search in Google Scholar

43. Armitage, A, T. Houseman, and D. Turner: The transfer of exogenous and exogenous nicotine to mainstream cigarette smoke and its absorption into the blood of anesthetized cats; J. Expt. Physiol. 59 (1974) 55-61.Search in Google Scholar

44. Norman, A.B, R.G. Hayworth, and T.A. Perfetti: Properties of tobacco related to cigarette burn rates; AcceptedtoTob. Sci. (1999).Search in Google Scholar

eISSN:
1612-9237
Language:
English
Publication timeframe:
4 times per year
Journal Subjects:
General Interest, Life Sciences, other, Physics
Journal RSS Feed