1. bookTom 22 (2007): Zeszyt 5 (June 2007)
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The Expansion of Tobacco and Its Effect on Cigarette Mainstream Smoke Properties

Data publikacji: 30 Dec 2014
Tom & Zeszyt: Tom 22 (2007) - Zeszyt 5 (June 2007)
Zakres stron: 317 - 345
Otrzymano: 01 Jun 2006
Przyjęty: 06 Dec 2006
Informacje o czasopiśmie
License
Format
Czasopismo
eISSN
2719-9509
Pierwsze wydanie
01 Jan 1992
Częstotliwość wydawania
4 razy w roku
Języki
Angielski

1. Wynder, E.L. and D. Hoffmann: Reduction of tumorigenicity of cigarette smoke. An experimental approach; J. Am. Med. Assoc. 192 (1965) 88–94. Search in Google Scholar

2. Wynder, E.L. and D. Hoffmann: Tobacco and tobacco smoke: Studies in experimental carcinogenesis; Academic Press, New York, NY, 1967, see pp. 503–504. Search in Google Scholar

3. Rodgman, A.: Studies of polycyclic aromatic hydrocarbons in cigarette mainstream smoke: Identification, tobacco precursors, control of levels: A review; Beitr. Tabakforsch. Int. 19 (2001) 361–379. Search in Google Scholar

4. Rodgman, A. and C.R. Green: Toxic chemicals in cigarette mainstream smoke - hazard and hoopla; in: Cigarette risk and the potential for risk reduction; Proceedings of the 2002 CORESTA Congress, New Orleans, LA, pp. 2–52; Beitr. Tabakforsch. Int. 20 (2003) 481–545. Search in Google Scholar

5. Wynder, E.L. and D. Hoffmann: Some practical aspects of the smoking-cancer problem; New Eng. J. Med. 262 (1960) 540–545. Search in Google Scholar

6. Gori, G.B. (Editor): Report No. 1. Toward less hazardous cigarettes. The first set of experimental cigarettes; DHEW Publ. No. (NIH) 76–905 (1976). Search in Google Scholar

7. Gori, G.B. (Editor): Report No. 2. Toward less hazardous cigarettes. The second set of experimental cigarettes; DHEW Publ. No. (NIH) 76-1111 (1976). Search in Google Scholar

8. Gori, G.B. (Editor): Report No. 3. The third set of experimental cigarettes; DHEW Publ. No. (NIH) 77-1280 (1977); Report No. 4. Toward less hazardous cigarettes. The fourth set of experimental cigarettes; DHEW Publ. (NIH) March (1980); National Cancer Institute: Report No. 5. Toward less hazardous ciga-rettes. Summary: Four skin painting bioassays using condensate from experimental cigarettes; DHEW Publ. (NIH) (September 1980). Search in Google Scholar

9. United States Public Health Service: Smoking and health. A report of the Surgeon General; DHEW Publ. No. (PHS) 79-50066 (1979): See Chapter 14, pp. 63-64. Search in Google Scholar

10. United States Public Health Service: The health con-sequences of smoking. The changing cigarette. A report of the Surgeon General; DHHS Publ. No. (PHS) 81-50156 (1981), see pp. 51-52. Search in Google Scholar

11. Wynder, E.L. and D. Hoffmann (Editors): Toward a less harmful cigarette; Natl. Cancer Inst. Monograph 28 (1968). Search in Google Scholar

12. Gori, G.B., S.P. Battista, P.S. Thayer, M.R. Guerin, and C.J. Lynch: Chemistry and in vitro bioassay of smoke from experimental filter cigarettes; DHEW Publ. No. (NIH) 76-1076 (1976). Search in Google Scholar

13. Wynder, E.L.: Some concepts of the less harmful cigarette; in: A safe cigarette? Banbury Report 3, edited by G.B. Gori and F.G. Bock, Cold Spring Harbor Laboratory, Cold Spring Harbor, NY (1980) 3-12; Hoffmann, D., G.B. Gori, and T.C. Tso: The less harmful cigarette; Prev. Med. 9 (1980) 287-296. Search in Google Scholar

14. Hoffmann, D., I. Hoffmann, and K. El-Bayoumy: The less harmful cigarette: A controversial issue. A tribute to Ernst L. Wynder; Chem. Res. Toxicol. 14 (2001) 767-790. Search in Google Scholar

15. Halter, H.M. and T.I. Ito: Effect of tobacco reconstitution and expansion processes on smoke composition; Recent Adv. Tob. Sci. 4 (1978) 113-137. Search in Google Scholar

16. Halter, H.M., T.I. Ito, J.V. Fiore, T.K. Kelly, and J.M. Slanski: Comparison of low density tobacco products: foamed, puffed, freeze dried; CORESTA/TCRC Joint Conf., Williamsburg, VA, CORESTA Inf. Bull., Spec. Edition 1972, Paper 98, pp. 146-148. Search in Google Scholar

17. Hoffmann, D., M.V. Djordjevic, and K.D. Brunnemann: Changes in cigarette design and composition over time and how they influence the yields of smoke constituents; J. Smoking-Related Dis. 6 (1995) 9-23, see pp. 15-16. Search in Google Scholar

18. Hoffmann, D. and I. Hoffmann: [Chemical studies on tobacco smoke. C] The changing cigarette: 1950-1995; J. Toxicol. Environ. Hlth. 50 (1997) 307-364. Search in Google Scholar

19. Hoffmann, D. and I. Hoffmann: The changing cigarette: Chemical studies and bioassays; Chapter 5, in: Risks associated with smoking cigarettes with low machine-measured yields of tar and nicotine, NCI Smoking and tobacco control, Monograph 13, edited by D.M. Burns and N.L. Benowitz, Bethesda, MD, Chapter 5, 2001, pp. 159-191. Search in Google Scholar

20. Rodgman, A.: G13-expanded tobacco and Freon 11®, December, 1972, pp. 1-66, see www.rjrtdocs.com 521189661 -9727; G13-expanded tobacco and Freon 11®, 1st Revision, February, 1974, pp. 1-77, see www.rjrtdocs.com 521189578 -9660; G13-expanded tobacco and Freon 11®, 2nd Revision, October, 1977, pp. 1-152, see www.rjrtdocs.com 515991960 -2115; G13-expanded tobacco and Freon 11®, 3rd Revision, December, 1979, pp. 1-104, see www.rjrtdocs.com 515979463 -9566; Rodgman, A.: G13-expanded tobacco and Freon 11®; R&DM, 1984, No. 6, February 13. Search in Google Scholar

21. The DuPont registered trade name for its fluorotrichloromethane is Freon 11®. Search in Google Scholar

22. Fredrickson, J.D.: Process for the control of tobacco smoke; CIM, 1964, No. 26, July 2, see www.rjrtdocs.com 504175497 -5498. Search in Google Scholar

23. Fredrickson, J.D.: Process for increasing the volume of tobacco; RDR, 1965, No. 3, January 18, see www.rjrtdocs.com 500965533 -5569; Process for increasing the filling volume of tobacco. Addendum to RDR, 1965, No. 3; RDM, 1965, No. 58, August 5, see www.rjrtdocs.com 502476759 -6762. Search in Google Scholar

24. Reed, C.L.: Method and apparatus for treating tobacco: U.S. Patent No. 2,344,106, March 14, 1944; Jones, S.O.: Methods of processing tobacco stem materials; U.S. Patent No. 3,204,641, September 7, 1965; de la Burde, R.Z.: Method of puffing tobacco stems by microwave energy, U.S. Patents Nos. 3,409,022, 3,409, 023, November 5, 1968. Search in Google Scholar

25. Fredrickson, J.D.: Process for increasing the filling capacity of tobacco; U.S. Patent No. 3,542,451 August 18, 1970. Search in Google Scholar

26. Moser, G.P. and G.M. Stewart: Process for increasing the filling capacity of tobacco; U.S. Patent No. 3,542,452, August 18, 1970. Search in Google Scholar

27. Rowland, F.S. and M.J. Molina: Chlorofluoro-methanes in the environment; Rev. Geophys. Space Physics 10 (1975) 1–10; Estimated future atmospheric concentrations of CCl3F (Fluorocarbon-11) for various hypothetical tropospheric removal rates; J. Phys. Chem. 80 (1976) 2049–2056. Search in Google Scholar

28. American Conference of Governmental Industrial Hygienists: Threshold limit values of airborne contaminants and physical agents; P.O. Box 1937, Cincinnati, OH, 1964. Search in Google Scholar

29. American Conference of Governmental Industrial Hygienists: Threshold limit values of airborne contaminants and physical agents with intended changes adopted by ACGIH for 1971; P.O. Box 1937, Cincinnati, OH, 1971. Search in Google Scholar

30. American National Standards Institute, Inc.: Acceptable concentrations of trichlorofluoromethane (Fluorocarbon 11); American National Standards Institute, Inc., New York, NY, 1973, pp. 1–8. Search in Google Scholar

31. Thome, F.A.: Quantitative determination of residual Freon 11 on tobacco and in mainstream smoke from cigarettes containing expanded tobacco; RDM, 1966, No. 78, December 5, see www.rjrtdocs.com 500604077 -4078; Rodgman, A. and F.A. Thome: The analysis of fluorotrichloromethane residues in expanded tobacco; Memorandum, 1970, pp. 1–21, see www.rjrtdocs.com 514363129 -3149. Search in Google Scholar

32. Thome, F.A.: Materials balance of Freon 11 residue on tobacco during smoking; RDM, 1970, No. 54, May 26, see www.rjrtdocs.com 500614598 -4603 Search in Google Scholar

33. Industrial Bio-Test Laboratories, Inc.: The effect of Freon 11® on cigarette smoke; Report to R. J. Reynolds Industries, Inc., February 22, 1971, see www.rjrtdocs.com 501623314 -3325; Goode, J.W. and J.C. Callandra: The expansion of tobacco by Freon 11®. I. Acute toxicity; Manuscript, 1974, see www.rjrtdocs.com 501012672 -2680. Search in Google Scholar

34. Shlifer, D.H., D.E. Heefner, and A. Spikol: The phosgene proposition; Philadelphia Magazine, October, 1976, see www.legacy.library.ucsf.edu. Search in Google Scholar

35. Thome, F.A.: A qualitative examination of cigarette smoke from Freon 1 1-expanded tobacco for phosgene; RDM, 1966, No. 70, November 14, see www.rjrtdocs.com 501539727 -9728; A qualitative examination of cigarette smoke from Freon 11-expanded tobacco for phosgene; RDM, 1968, No. 22, April 1, see www.rjrtdocs.com 500612961 -3962; Phosgene determination, see www.rjrtdocs.com 508333851 -3851. Search in Google Scholar

36. Hanst, P.L., J.W. Spence, and F.R. Clay: Chlorofluoromethanes: Their thermal stability in passing through cigarettes; Environ. Sci. Res. Lab. Program, Research Triangle Park, NC, February, 1977, see www.rjrtdocs.com 500265898 -5898. Search in Google Scholar

37. Weill, H. and E.M. Sewell: In search of the pump handle; Am. Rev. Resp. Dis. 115 (1977) 911-913. Search in Google Scholar

38. Polert, W.: Personal communication, 1976. Search in Google Scholar

39. Fredrickson, J.D.: Effect of Freon 11® on selected tobacco components; RJRT Research Notebook. Search in Google Scholar

40. Green, CR. and J.N. Schumacher: Smoke compo-sition: Puffed vs. unpuffed tobacco; RDR, 1971, No. 7, February 26, see www.rjrtdocs.com 501001966 -1998; Rodgman, A., CR. Green, B.A. Harbin, J.N. Schumacher, M. Sheppard, T.A. Stamey Jr, F.A. Thome, J.W. Goode, and J.C Callandra: The expansion of tobacco by fluorotrichloromethane. I. Composition of smoke from tobacco and fate of residual fluorotrichloromethane during smoking; Manuscript, February 25, 1974, see www.rjrtdocs.com 503652151 -2193. Search in Google Scholar

41. Newell, M.P., R.A. Heckman, R.F. Moates, CR. Green, F.W. Best, and J.N Schumacher: The composition of the ether-soluble portion of the particulate phase of cigarette smoke; 29th Tobacco Chemists’ Research Conference, Program Booklet and Abstracts, Vol. 29, Paper No. 39, 1975, p. 28; Isolation and iden-tification of new components of the ether-soluble portion of cigarette smoke condensate; Tob. Sci. 22 (1978) 6-11. Search in Google Scholar

42. Schumacher, J.N., CR. Green, and F.W. Best: The composition of the water-soluble portion of cigarette smoke particulate phase; 29th Tobacco Chemists’ Research Conference, Program Booklet and Abstracts, Vol. 29, Paper No. 38, 1975, p. 27; 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. Agr. Food Chem. 25 (1977) 310-320. Search in Google Scholar

43. Hoffmann, D. and S.S. Hecht: Advances in tobacco carcinogenesis; in: Chemical carcinogenesis and mutagenesis, edited by CS. Cooper and P. Grover, I, Springer-Verlag, London, UK, 1990, pp. 64-102.10.1007/978-3-642-74775-5_3 Search in Google Scholar

44. Hoffmann, D., A. Rivenson, F.L. Chung, and E.L. Wynder, Potential inhibitors of tobacco carcinogenesis; in: Tobacco smoking and nutrition: Influence of nutrition on tobacco-associated health risks, edited by J.N. Diana and W.A. Pryor, Ann. N.Y. Acad. Sci. 686, 1993, pp. 140-160.10.1111/j.1749-6632.1993.tb39169.x8512245 Search in Google Scholar

45. Occupational Safety and Health Administration (OSHA): Indoor air quality; Fed. Reg. 59 (No. 65) (1994) 15968-16039. Search in Google Scholar

46. Fowles, J. and M. Bates: The chemical constituents in cigarettes and cigarette smoke: Priorities for harm reduction; A Report to the New Zealand Ministry of Health, March 2000, pp. 1-65. Search in Google Scholar

47. Hoffmann, D. and I. Hoffmann: Tobacco smoke components. Letter to the Editor; Beitr. Tabakforsch. Int. 18 (1998) 49–52. Search in Google Scholar

48. Dube, M.F., C.W. Miller, and C.R. Green: Smoke comparison study of Freon 11®- and pentane-puffed tobacco cigarettes; RDR, 1979, No. 3, December 13, see www.rjrtdocs.com 507078899 -8905. Search in Google Scholar

49. Enzell, C.R., D. Bergstedt, T. Dalhamn, and W.H. Johnson: Tobacco chemistry. 4. Chemical and cilio-toxic studies of smoke from freeze-dried tobacco; Beitr. Tabakforsch. 6 (1971) 41–50. Search in Google Scholar

50. Cigarette smoking was performed under FTC conditions, i.e., 35-mL puff of 2-sec duration, 1 puff/min at 25 /C, 60% relative humidity. Prior to smoking, ciga-rettes were conditioned according to FTC conditions, see Federal Trade Commission: Cigarettes: Testing for tar and nicotine: Fed. Register 32 (1967) 11178; 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) 458–462.10.1093/jaoac/52.3.458 Search in Google Scholar

51. Industrial Bio-Test Laboratories, Inc.: The effects of puffed and unpuffed tobacco smoke on the phagocytic activity of alveolar macrophages in vitro; Report to R. J. Reynolds Industries, Inc., January 12, 1972, see www.rjrtdocs.com 501623544 -3558; Goode, J.W. and J.C. Callandra: The expansion of tobacco by Freon 11®. II. The effect of expanded tobacco smoke on the phagocytic activity of alveolar macrophages in vitro; Manuscript, 1974, see www.rjrtdocs.com 501012661 -2672. Search in Google Scholar

52. Industrial Bio-Test Laboratories, Inc.: Eighteen-month carcinogenesis study (mouse skin-painting) with con-trol and Freon 11®-expanded tobacco smoke conden-sates; Report to R. J. Reynolds Industries, Inc., June 19, 1972, see www.rjrtdocs.com 501548484 -8492; Goode, J.W. and J.C. Callandra: The expansion of tobacco by Freon 11®. II. Tumorigenicity of smoke condensate; Manuscript, 1974, see www.rjrtdocs.com 501012634 -2645. Search in Google Scholar

53. National Cancer Institute: Report No. 5. Toward less hazardous cigarettes. Summary: Four skin painting bio-assays using condensate from experimental cigarettes; DHEW Publ. (NIH) (September 1980), see p. 12. Search in Google Scholar

54. Dontenwill, W., H.-J. Chevalier, H.-P. Harke, H.-J. Klimisch, G. Reckseh, B. Fleischmann, and W. Keller: Experimentelle Untersuchungen über die tumor-erzeugende Wirkung von Zigarettenrauchkondensaten an der Mäusehaut. VII. Einzelvergleiche von Konden-saten verschiedener modifizierter Zigaretten [Experi-mental investigation of the tumor-producing action of cigarette smoke condensate on mouse skin. VII. Com-parison of the condensates from different modified cigarettes]; Z. Krebsforsch. 89 (1977) 145–151. Search in Google Scholar

55. Armstrong, R.G., E.J. Deszyck, J.W. Madures, and R.H. Young: Process for puffing tobacco; U.S. Patent 3,771,533, November 13, 1973. Search in Google Scholar

56. Johnson, W.H.: A freeze-drying process for tobacco: research developments and projections; 23rd Tobacco Chemists’ Research Conference, Program Booklet and Abstracts, Vol. 23, Paper No. 35, 1969, p. 16; Moha-patra, S.C. and W.H. Johnson: Structural and chemical properties of flue-cured and freeze-dried tobacco; 24th Tobacco Chemists’ Research Conference, Program Booklet and Abstracts, Vol. 24, Paper No. 36, 1970, p. 16; Johnson, W.H.: New processing methods in the pre-manufacturing of tobacco; 5th International Tobacco Scientific Congress, Hamburg, Germany, 1970. Search in Google Scholar

57. 51Kensler, C.J. and S.P. Battista: Components of ciga-rette smoke with ciliary-depressant activity: Their selective removal by filters containing activated char-coal; New Eng. J. Med. 269 (1963) 1161–1166; Wynder, E.L. and D. Hoffmann: Tobacco and tobacco smoke: Studies in experimental carcinogenesis; Aca-demic Press, New York, NY, 1967, see pp. 416–418, Table VIII.29. Search in Google Scholar

58. Dontenwill, W., H.-J. Chevalier, H.-P. Harke, H.-J. Klimisch, C. Kuhnigk, G. Reckseh, and B. Schneider: Untersuchungen über den Effekt der chronischen Zigarettenrauchinhalation beim syrischen Goldhamster und über die Bedeutung des Vitamin A auf die be i Bera uchung gefundenen Organveränderungen [Studies on the effect of chronic cigarette smoke inhalation in Syrian golden hamsters and the importance of vitamin A on morphological alterations after smoke exposure]; Z. Krebsforsch. 89 (1977) 153–180. Search in Google Scholar

59. Coggins, C.R.E., A.T. Mosberg, and P.H. Ayres: Comparative inhalation study using cigarettes con-taining tobacco expanded with Freon 11 or Freon 123. Report on in-life, necropsy, fast-track histopathology; R&DM, 1990, No. 75, April 7, see www.rjrtdocs.com 508209378 -9425. Search in Google Scholar

60. Fredrickson, J.D., J.P. Dickerson, E.S. Hickman, and E.D. Harper Jr: Use of ammonium carbonate and ammonium bicarbonate in puffing tobacco and other materials of biological origin; CIM, 1969, No. 48, April 1, see www.rjrtdocs.com 504167687 -7688. Search in Google Scholar

61. R.J. Reynolds Tobacco Company: Procedure for expansion of tobacco; Kingdom of Belgium Patent No. 760,114 (May 17, 1971). Search in Google Scholar

62. Philip Morris Inc.: Process for tobacco swelling; Kingdom of Belgium Patent No. 760,221 (August 31, 1971). Search in Google Scholar

63. Armstrong, R.G., E.J. Deszyck, J.W. Madures, and R.H. Young: Process for puffing tobacco; U.S. Patent No. 3,771,533 (November 13, 1973).10.1099/0022-1317-21-3-5334128637 Search in Google Scholar

64. Mays, C.D., T.H. Edwards, and R.F. Moates: Expansion of tobacco with ammonia-carbon dioxide; RDR, 1973, No. 2, February 28, see www.rjrtdocs.com 501002997 -3006. Search in Google Scholar

65. United States Food and Drug Administration (FDA): Nicotine in cigarettes and smokeless tobacco products is a drug and these products are nicotine delivery devices under the Federal Food, Drug, and Cosmetic Act; US FDA DHHS, pp. 1–326 (August, 1995). Search in Google Scholar

66. Armitage, A.K., M. Dixon, B.P. 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 subsequent plasma nicotine concentrations during cigarette smoking; Chern. Res. Toxicol. 17 (2004) 537–544. Search in Google Scholar

67. Kaburaki, Y., S. Sugawara, U. Kobashi, and T. Doi-hara: Studies on the composition of tobacco smoke. XIV. The formation of pyridines in the pyrolysis of nicotine; J. Agr. Chem. Soc. Japan 44: (1970) 224–231. Search in Google Scholar

68. Green, C.R., J.M. Martin, and A. Rodgman: Effect of treatment of tobacco with ammonia or various ammo-nium salts on the levels of pyridines and pyrazines in smoke; RDR, 1976, No. 3, January 29, see www.rjrtdocs.com 501003985 -4047. Search in Google Scholar

69. Rodgman, A.: “Smoke pH”: A review; Beitr. Tabak-forsch. Int. 19 (2000) 117–139; Erratum notice Beitr. Tabakforsch. Int. 19 (2001) 229–235. Search in Google Scholar

70. Maga, J.A. and C.E. Sizer: Pyrazines in food. A review; J. Agr. Food Chem. 21 (1973) 22–30.10.1021/jf60185a006 Search in Google Scholar

71. Van Praag, M., H.S. Stein, and M.S. Tibbetts: Steam volatile constituents of roasted cocoa beans; J. Agr. Food Chem. 16 (1968) 1005–1008. Search in Google Scholar

72. Newell, J.A., M.E. Mason, and R.S. Matlock: Precur-sors of typical and atypical roasted peanut flavor; J. Agr. Food Chem. 15 (1967) 767–772. Search in Google Scholar

73. Smeeton, B.W., C.K. Lee, E.A. Reed, and G.P. Dob-son: Ames test on smoke condensate – A summary: Part 2 (1983–1984); R&DM, 1985, No. 19, February 28, Appendices 11–14, see www.rjrtdocs.com 504147613 -7623. Search in Google Scholar

74. Wynder, E.L. and D. Hoffmann: Ein experimenteller Beitrag zur Tabakrauchkanzerogenese [An experi-mental contribution to tobacco smoke carcinogenesis]; Deut. Med. Wchnschr. 88 (1963) 623–628; Tobacco and tobacco smoke: Studies in experimental carcinogenesis; Academic Press, New York, NY, 1967, see pp. 516–518; A study of tobacco carcinogenesis. X. Tumor promoting activity; Cancer 24 (1969) 289–301. Search in Google Scholar

75. Hoffmann, D. and E.L. Wynder: A study of tobacco carcinogenesis. XV. Chemical composition and tumorigenicity of tobacco smoke; in: The chemistry of tobacco and tobacco smoke, edited by I. Schmeltz, Plenum Publishing Co. (1972) 123–147; Selective reduction of the tumorigenicity of tobacco smoke. II. Experimental approaches; J. Natl. Cancer Inst. 48 (1972) 1855–1868. Search in Google Scholar

76. DeMarini, D.M.: Genotoxicity of tobacco smoke and tobacco smoke condensate; Mutat. Res. 114 (1983) 59–89. Search in Google Scholar

77. Mizusaki, S., T. Takashima, and K. Tomaru: Factors affecting mutagenic activity of cigarette smoke condensate in Salmonella typhimurium TA1538; Mutat. Res. 48 (1977) 29–36. Search in Google Scholar

78. White. J.L. and L. Conrad: A unique means of tobacco expansion; CIM, 1979, No. 6, June 15, see www.rjrtdocs.com 505626787 -6788; Borgerding, M.F.: Analysis of residual propane in expanded tobacco; R&DM, 1984, No. 91, December 18, see www.rjrtdocs.com 501016792 -6808; Theophilus, E.H., B.R. Bombick, D.R. Meckley, M.A. Higuchi, M.F. Borgerding, M.J. Morton, A.T. Mosberg, and J.E. Swauger: Toxicological evaluation of propane expanded tobacco; Food Chem. Toxicol. 41 (2003) 1771–1780. Search in Google Scholar

79. Gori, G.B. (Editor): Report No. 4. Toward less hazar-dous cigarettes. The fourth set of experimental ciga-rettes; DHEW Publ. (NIH) March (1980). Search in Google Scholar

80. Norman, V., J.R. Newsome, and C.H. Keith: Vapor phase analysis of tobacco smoke; 145th Ann. Mtg., Am. Chem. Soc., New York, NY, 1963; Techniques for the analysis of tobacco smoke vapours; 17th Tobacco Chemists’ Research Conference, Program Booklet and Abstracts, Vol. 17, Paper No. 27, 1963, p. 19; Vapor phase analysis of tobacco smoke; Tob. Sci. 9 (1963) 102–110; Philippe, R.J., H. Moore, R.G. Honeycutt, and J.M. Ruth: Some hydrocarbons of the gas phase of cigarette smoke; 17th Tobacco Chemists’ Research Conference, Program Booklet and Abstracts, Vol. 17, Paper No. 25, 1963, p. 18; Anal. Chem. 36 (1964) 859-865; Caroff, J., J. Véron, R. Badré, and R. Guillerm: Qualitative analysis of light hydrocarbons in cigarette smoke by gas chromatography; J. Gas Chromatog. 2 (1964) 320–322. Search in Google Scholar

81. Heckman, R.A. and F.W. Wendelboe: The effect of G13 processing on tobacco flavor composition; RDM, 1980, No. 5, February 29, see www.rjrtdocs.com 500617511 -7533. Search in Google Scholar

82. Doull, J., J.P. Frawley, W.J. George, T.A. Loomis, R.A. Squire, and S.L. Taylor: Cigarette ingredients: A complete list and background; Covington and Burling, Washington, D.C., April 12, 1994, see www.rjrtdocs.com 512699201 -9225; or 515536758 -6782; or 515908839 -8863. Search in Google Scholar

83. Rodgman, A.: Some studies of the effects of additives on cigarette mainstream smoke properties. III. Ingredients reportedly used in various commercial cigarette products in the USA and elsewhere; Beitr. Tabakforsch. Int. 21 (2004) 47–104. Search in Google Scholar

84. Gaworski, C.L., M.M. Dozier, J.D. Heck, J.M. Gerhart, N. Rajendran, R.M. David, L.H. Brennecke, and R. Morrisey: Toxicologic evaluation of flavor ingredients added to cigarette tobacco: 13-Week inha-lation exposures in rats; Inhal. Toxicol. 10 (1998) 357–381. Search in Google Scholar

85. Rustemeier, K., R. Stabbert, H.J. Haussmann, E. Roemer E, and E.L. Carmines: Evaluation of the potential effects of ingredients added to cigarettes. Part 2: Chemical composition of mainstream smoke; Food Chem. Toxicol. 40 (2002) 93–104. Search in Google Scholar

86. Rodgman, A.: Some studies of the effects of additives on cigarette mainstream smoke properties. I. Flavorants; Beitr. Tabakforsch. Int. 20 (2002) 83–103. Search in Google Scholar

87. Hoffmann, D. and E.L. Wynder: Chemical con-stituents and bioactivity of tobacco smoke; in: Tobacco: A major health hazard, edited by D.G. Zardi-dze and R. Peto, IARC, Lyon, France, IARC Sci. Publ. No. 74 (1986) 145–165; Hoffmann, D. and S.S. Hecht: Advances in tobacco carcinogenesis; in: Chemical carcinogenesis and mutagenesis. I, edited by C.S. Cooper and P. Grover, Springer-Verlag, London, U.K., 1990, Chapter 3, pp. 63–102; Hoffmann, D., A. Rivenson, F.L. Chung, and E.L. Wynder: Potential inhibitors of tobacco carcinogenesis; in: Tobacco smoking and nutrition: Influence of nutrition on tobacco-associated health risks, edited by J.N. Diana and W.A. Prior, Ann. N.Y. Acad. Sci. 686 (1993) 140–160; Tobacco smoke components. Letter to the Editor; Beitr. Tabakforsch. Int. 18 (1998) 49–52; Hoffmann, D., I. Hoffmann, and K. El-Bayoumy: The less harmful cigarette: A controversial issue. A tribute to Ernst L. Wynder; Chem. Res. Toxicol. 14 (2001) 767–790. Search in Google Scholar

88. Rodgman, A.: The composition of cigarette smoke: Problems with lists of tumorigens; Beitr. Tabakforsch. Int. 20 (2003) 402–437. Search in Google Scholar

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