References
- Hoffmann D, Hoffmannn L. The changing cigarette, 1950–1995. J Toxicol Environ Health A 1997; 50: 307–364
- DeMarini DM. Genotoxicity of tobacco smoke and tobacco smoke condensate: a review. Mutat Res 2004; 567: 447–474
- Church DF, Pryor WA. Free-radical chemistry of cigarette smoke and its toxicological implications. Environ Health Perspect 1985; 64: 111–126
- Pryor WA. Cigarette smoke and the involvement of free radical reactions in chemical carcinogenesis. Br J Cancer 1987; 8: 19–23
- Kodama M, Kaneko M, Aida M, Inoue F, Nakayama T, Akimoto H. Free radical chemistry of cigarette smoke and its implication in human cancer. Anticancer Res 1997; 17: 433–437
- Pryor WA. Cigarette smoke radicals and the role of free radicals in chemical carcinogenicity. Environ Health Perspect 1997; 105: 875–882
- Culcasi M, Muller A, Mercier A, Clement J-L, Payet O, Rockenbauer A, Marchand V, Pietri S. Early specific free radical-related cytotoxicity of gas phase cigarette smoke and its paradoxical temporary inhibition by tar: An electron paramagnetic resonance study with the spin trap DEPMPO. Chem Biol Interact 2006; 164: 215–231
- Eiserich JP, Vandervliet A, Handelman GJ, Halliwell B, Cross CE. Dietary antioxidants and cigarette smoke-induced bimolecular damage—a complex interaction. Am J Clin Nutr 1995; 62: S1490–S1500
- Chambers DC, Tunnicliffe WS, Ayres JG. Acute inhalation of cigarette smoke increases lower respiratory tract nitric oxide concentrations. Thorax 1998; 53: 677–679
- Kodama M, Kaneko M, Aida M, Inoue F, Nakayama T, Akimoto H. Free radical chemistry of cigarette smoke and its implication in human cancer. Anticancer Res 1997; 17: 433–437
- Pryor WA, Hales BJ, Premovic PI, Church DF. The radicals in cigarette tar: their nature and suggested physiological implications. Science 1983; 220: 425–427
- Pryor WA, Prier DG, Church DF. Electron-spin resonance study of mainstream and sidestream cigarette smoke: nature of the free fadicals in gas-phase smoke and in cigarette tar. Environ Health Perspect 1983; 47: 345–355
- Pryor WA, Tamura M, Chruch DF. ESR spin-trapping study of the radicals produced in NOx/olefin reactions: a mechanism for the production of the apparently long-lived radicals in gas-phase cigarette smoke. J Am Chem Soc 1984; 106: 5073–5079
- Deliconstantinos G, Villiotou V, Stavrides JC. Scavenging effects of hemoglobin and related heme containing compounds on nitric oxide, reactive oxidants and carcinogenic volatile nitrosocompounds of cigarette smoke. a new method for protection against the dangerous cigarette constituents. Anticancer Res 1994; 14: 2717–2726
- Zhang D, Tao Y, Gao J, Zhang C, Wan S, Chen Y, Huang X, Sun X, Duan S, Schonlau F, Rohdewald P, Zhao B. Pycnogenol in cigarette filters scavenges free radicals and reduces mutagenicity and toxicity of tobacco smoke in vivo. Toxicol Ind Health 2002; 18: 215–224
- Nishizawa M, Kohno M, Nishimura M, Kitagawa A, Niwano Y. Presence of peroxyradicals in cigarette smoke and the scavenging effect of shikonin, a naphthoquinone pigment. Chem Pharm Bull (Tokyo) 2005; 53: 796–799
- Valavanidis A, Haralambous E. A comparative study by electron paramagnetic resonance of free radical species in the mainstream and sidestream smoke of cigarettes with conventional acetate filters and ‘bio-filters’. Redox Rep 2001; 6: 161–171
- Brown G. Reversible binding and inhibition of catalase by nitric oxide. Eur J Biochem 1995; 232: 188–191
- Brunelli L, Yermilov V, Beckman JS. Modulation of catalase peroxidatic and catalatic activity by nitric oxide. Free Radic Biol Med 2001; 30: 709–714
- Çetinus ŞA, Öztop HN. Immobilization of catalase on chitosan film. Enzyme Microb Technol 2000; 26: 497–501
- Çetinus ŞA, Öztop HN. Immobilization of catalase into chemically crosslinked chitosan beads. Enzyme Microb Technol 2003; 32: 889–894
- Krajewska B. Application of chitin- and chitosan-based materials for enzyme immobilizations: a review. Enzyme Microb Technol 2004; 35: 126–139
- Çetinus ŞA, Öztop HN, Saraydin D. Immobilization of catalase onto chitosan and cibacron blue F3GA attached chitosan beads. Enzyme Microb Technol 2007; 41: 447–454
- Hu Y, Zhang Z, Yang C. The determination of hydrogen peroxide generated from cigarette smoke with an ultrasensitive and highly selective chemiluminescence method. Anal Chim Acta 2007; 601: 95–100
- Baum SL, Anderson IGM, Baker RR. Electron spin resonance and spin trap investigation of free radicals in cigarette smoke: development of a quantification procedure. Anal Chim Acta 2003; 481: 1–13
- Duling DR. Simulation of multiple isotropic spin-trap EPR spectra. J Magn Reson. Ser B 1994; 104: 105–110
- Rockenbauer A, Koreca L. Automatic computer simulations of ESR spectra. Appl Magn Reson 1996; 10: 29–43
- Culcasi M, Rockenbauer A, Mercier A, Clement JL, Pietri S. The line asymmetry of electron spin resonance spectra as a tool to determine the cis:trans ratio for spin-trapping adducts of chiral pyrrolines N-oxides: the mechanism of formation of hydroxyl radical adducts of EMPO, DEPMPO, and DIPPMPO in the ischemic-reperfused rat liver. Free Radic Biol Med 2006; 40: 1524–1538
- Saltzman BE. Colorimetric microdetermination of nitrogen dioxide in atmosphere. Anal Chem (Wash) 1954; 26: 1949–1955
- Norman V, Keith CH. Nitrogen oxides in tobacco smoke. Nature 1965; 205: 915–916
- Ohkawa H, Ohishi N, Yagi K. Assay for lipid peroxides in animal tissues by thiobarbituric acid reaction. Anal Biochem 1979; 95: 351–358
- Rao SS, Lifshitz R. The muta-chromatoplate method for measuring mutagenicity of environmental samples and pure chemicals. Environ Toxicol Water Qual 1995; 10: 307–311
- Clark D, Durner J, Navarre DA, Klessig DF. Nitric oxide inhibition of tobacco catalase and ascorbate peroxidase. Mol Plant-Microbe Interact 2000; 13: 1380–1384
- Gladwin MT, Ognibene FP, Shelhamer JH, Pease-Fye ME, Noguchi CT, Rodgers GP, Schechter AN. Nitric oxide transport on sickle cell hemoglobin: Where does it bind?. Free Radic Res 2001; 35: 175–180
- Lawson DM, Stevenson CEM, Andrew CR, George SJ, Eady RR. A two-faced molecule offers NO explanation: the proximal binding of nitric oxide to haem. Biochem Soc Trans 2003; 31: 553–557
- Pryor WA, Stone K. Oxidants in cigarette smoke. Ann NY Acad Sci 1993; 686: 12–28
- Adams JD, O'Mara-Adams KJ, Hoffman D. Toxic and mutagenic agents in undiluted mainstream smoke and sidestream smoke of different types of cigarettes. Carcinogenesis 1987; 8: 729–731
- Alexandrov K, Rojas M, Rolando C. DNA damage by benzo(a)pyrene in human cells is increased by cigarette smoke and decreased by a filter containing rosemary extract, which lowers free radicals. Cancer Res 2006; 66: 11938–11945
- Lapenna D, de Gioia S, Mezzetti A, Ciofani G, Consoli A, Marzio L, Cuccurullo F. Cigarette smoke, ferritin, and lipid peroxidation. Am J Respir Crit Care Med 1995; 151: 431–435
- Chen C, Loo G. Cigarette smoke extract inhibits oxidative modification of low density lipoprotein. Atherosclerosis 1995; 112: 177–185