Ames B.N. (1989). Endogenous oxidative DNA damage, aging and cancer . Free Rad Res Commun7, 121-128
2.
Aruoma O.I. and Halliwell B. (1988). Inactivation of α1-antiproteinase by hydroxyl radicals. The effect of uric acid. FEBS Lett244, 76-80
3.
Babior B.M. (1978). Oxygen-dependent microbial killing by phagocytes . N Engl J Med298, 721-748
4.
Beckman J.S., Beckman T.W., Chen J., Marshall P.A. and Freeman B.A. (1990). Apparent hydroxyl radical production by peroxynitrite; implications for endothelial injury from nitric oxide and superoxide. Proc Natl Acad Sci USA87, 1620-1624
5.
Breimer L.H. (1991). Repair of DNA damage induced by reactive oxygen species. Free Rad Res Commun14, 159-171
6.
Cantin A. and Crystal R.G. (1985). Oxidants, antioxidants and the pathogenesis of emphysema. Eur J Resp Dis66 (suppl 139), 7-17
7.
Chance B., Sies H. and Boveris A. (1979). Hydroperoxide metabolism in mammalian organs. Physiol Rev59, 527-605
8.
Chow CK ( 1991). Vitamin E and oxidative stress. Free Rad Biol Med11, 215-232
9.
Chow C.K., Changchit C., Bridges R.B., Rehn S.R., Humble J. and Turbekj ( 1986). Lower levels of vitamin C and carotenes in plasma of cigarette smokers. J Am Coll Nutr5, 305-312
10.
Church D.F. and Pryor W.A. (1985). Free radical chemistry of cigarette smoke and its toxicological implications. Environ Health Perspect64, 111-126
11.
Cosgrove J.P., Borish E.T., Church D.F. and Pryor W.A. (1985). The metal-mediated formation of hydroxyl radical by aqueous extracts of cigarette tar. Biochem Biophys Res Commun132, 390-396
12.
Dizdaroglu M., Nackerdien Z., Chao B.C., Gajewski E. and Rao G. (1991). Chemical nature of in vivo base damage in hydrogen peroxide-treated mammalian cells, Arch Biochem Biophys285, 388-391
13.
Dupuy C., Virion A., Ohayon R., Kamiewski J., Deme D. and Pommier J. (1991). Mechanism of hydrogen peroxide formation catalyzed by NADPH oxidase in thyroid plasma membrane. J Biol Chem266, 3739-3743
14.
Dusser D.J., Djokic T.D., Borson D.B. and Nadel J.A. (1989). Cigarette smoke induces bronchoconstrictor hyperresponsiveness to substance P and inactivates airway neutral endopeptidase in the guinea pig. Possible role of free radicals. J Clin Invest84, 900-906
15.
Esterbauer H., Striegl B., Puhl H.and Rotheneder M. (1989). Continuous monitoring of in vitro oxidation of human low density lipoprotein. Free Rad Res Commun6, 67-75
16.
Esterbauer H., Schaur R.J. and Zollner H. (1991). Chemistry and biochemistry of 4-hydroxynonenal, malonaldehyde and related aldehydes. Free Rad Biol Med11, 81-128
17.
Esterbauer H., Gebicki J., Puhl H. and Jurgens G. (1992). The role of lipid peroxidation and antioxidants in oxidative modification of LDL. Free Rad Biol Med13, 341-390
18.
Frank L. (1991). Developmental aspects of experimental pulmonary oxygen toxicity. Free Rad Biol Med11, 463-494
19.
Frei B., Forte T.M., Ames B.N. and Cross C.E. (1991). Gas phase oxidants of cigarette smoke induce lipid peroxidation and changes in lipoprotein properties in human blood plasma. Biochem J277, 133-138
20.
Golden M N H (1987). Free radicals in the pathogenesis of Kwashiorkor . Proc Nutr Soc46, 53-58
21.
Halliwell B. (1990). How to characterize a biological antioxidant. Free Rad Res Commun9, 1-32
22.
Halliwell B. and Aruoma O.I. (1991). DNA damage by oxygen-derived species. Its mechanism and measurement in mammalian systems. FEBS Lett281, 9-19
23.
Halliwell B. and Gutteridge J M C (1986). Oxygen free radicals and iron in relation to biology and medicine. Some problems and concepts. Arch Biochem Biophys246, 501-508
24.
Halliwell B. and Gutteridge J M C (1989). Free Radicals in Biology and Medicine2nd edn Clarendon Press, Oxford, UK
25.
Halliwell B. and Gutteridge J M C (1990). The antioxidants of human extracellular fluids. Arch Biochem Biophys280, 1-8
26.
Halliwell B., Gutteridge J M C and Cross C.E. (1992a). Free radicals, antioxidants and human disease - where are we now? J Lab Clin Med119, 598-620
27.
Halliwell B., Hu M.L., Louie S., Duvall T.R., Tarkington B.K., Motchnik P. and Cross C.E. (1992b). Interaction of nitrogen dioxide with human plasma. Antioxidant depletion and oxidative damage. FEBS Lett313, 62-66
28.
Halliwellb, Wasilm and Grootveldm( 1987). Biologically significant scavenging of the myeloperoxidase-derived oxidanthypochlorous acid by ascorbic acid. Implications for antioxidant protection in the flamed rheumatoid joint. FEBS Lett213, 15-18
29.
Harris M.L., Schiller H.J., Reilly P.M., Donowitz M., Grisham M.B. and Bulkley G.B. (1992). Free radicals and other reactive oxygen metabolites in inflammatory bowel disease: cause, consequence or epiphenomenon? Pharmac Ther531375-408
30.
Janoff A.( 1986). Investigations into the biochemical mechanisms of pulmonary emphysema; effect of cigarette smoke on enzymes and anti-enzymes in the lung . Respiration50 (suppl 1), 13-25
31.
Janoff A., George-Nascimento C. and Rosenberg S. (1986). A genetically engineered, mutant human alpha-1-proteinase inhibitor is more resistant than normal inhibitor to oxidative inactivation by chemicals, enzymes, cells and cigarette smoke. Am Rev Resp Dis133, 353-356
32.
Kiyosawa H., Suko M., Okudaira H., Murata K., Miyamoto T., Chung M.H., Kasai H. and Nishimura S.L. (1990). Cigarette smoking induces formation of 8-hydroxydeoxyguanosine, one of the oxidative DNA damages, in human peripheral leukocytes. Free Rad Res Commun11, 23-27
33.
Lassila R. and Laustiola K.E. (1992). Cigarette smoking and platelet-vessel wall interactions . Prostaglandins Leukotrienes and Essential Fatty Acids46, 81-86
34.
Loft S., Vistisen K., Ewertz M., Tjonneland A., Overvad K. and Poulsen H.E. (1992). Oxidative DNA-damage estimated by 8-hydroxydeoxyguanosine excretion in man; influence ofsmoking, gender and body mass index. Carcinogenesis 13, 2241-2247
35.
McGowan S.E. and Henley S.A. (1988). Iron and ferritin contents and distribution in human alveolar macrophages. J Lab Clin Med111, 611-617
36.
Moncada S., Palmer R M J and Higgs E.A. (1991). Nitric oxide; physiology, pathophysiology and pharmacology. Pharm Rev43,109-142
37.
Moreno J.J. and Pryor W.A. (1992). Inactivation of α1proteinase inhibitor by peroxynitrite. Chem Res Tox5, 425-431
38.
Moreno J.J., Foroozesh M., Church D.F. and Pryor W.A. (1992). Release of iron from ferritin by aqueous extracts of cigarette smoke. Chem Res Toxicol5, 116-123
39.
Pacht E.R., Kaseki H., Mohammed J.R., Cornwell D.G. and Davis W.B. (1986). Deficiency of vitamin E in the alveolar fluid of cigarette smokers. J Clin Invest771789-796
40.
Phillips D.H., Hewer A., Martin C.N., Garner R.C. and King M.M. (1988). Correlation of DNA adduct levels in human lung with cigarette smoking. Nature336, 790-792
41.
Pryor W.A. (1987). Cigarette smoke and the involvement offree radical reactions in chemical carcinogenesis. Br J Cancer55 (suppl VIII), 19-23
42.
Pryor W.A., Tamura M. and Church D.F.( 1984). 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 Amer Chem Soc106, 5073-5079
43.
Pryor W.A., Dooley M.M. and Church D.F. (1986). The inactivation of alpha-1-proteinase inhibitor by gas-phase cigarette smoke: protection by antioxidants and reducing species . Chem-Biol Interac57, 271-283
44.
Randerath E., Avitts T.A., Reddy M.V., Miller R.H., Everson R.B. and Randerath K. (1986). Comparative 32/P-analysis of cigarette smoke-induced DNA damage in human tissues and mouse skin. Cancer Res46, 5869-5877
45.
Reznick A.Z., Cross C.E., Hu M.L., Suzuki Y.J., Khwaja S., Safadi A., Motchnik P.A., Packer L. and Halliwell B. (1992). Modification of plasma proteins by cigarette smoke as measured by protein carbonyl formation. Biochem J286, 607-611
46.
Saran M., Michel C. and Bors W. (1990). Reactions of NO with O2-; Implications for the action ofendothelium-derived relaxing factor. Free Rad Res Commun10, 221-226
47.
Sies H ed(1985). Oxidative Stress , Academic Press, New York and London
48.
Sies H ed (1991). Oxidative Stress II, Oxidants and Antioxidants, Academic Press, New York and London
49.
Smith C.A., Mitchinson M.J., Aruoma O.I. and Halliwell B. (1992). Stimulation of lipid peroxidation and hydroxyl radical generation by the contents of human atherosclerotic lesions. Biochem J286, 901-905
50.
Steinberg D., Parthasarathy S., Carew T.E., Khoo J.D. and Witztum J.L. (1989). Beyond cholesterol; modifications of low-density lipoprotein that increase its atherogenicity. N EnglJ Med320, 915-924
51.
Von Sonntag C (1987). The Chemical Basis of Radiation Biology, Taylor and Francis, UK
52.
Weiss S.J. (1989). Tissue destruction by neutrophils. N Engl J Med320, 365-376
