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Analytical Letters Volume 46, 2013 - Issue 4
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FLUORESCENCE

Fluorescence Evaluation of Scavenging Efficiency of Antioxidants Against Reactive Oxygen Species (ROS) in Cigarette Smoke

Hailin Liu Dalian Institute of Chemical Physics, Chinese Academy of Sciences, Dalian, P. R. China; Zhengzhou Tobacco Research Institute of CNTC, Zhengzhou, P. R. China
,
Shihao Sun Zhengzhou Tobacco Research Institute of CNTC, Zhengzhou, P. R. China
,
Yongli Zong Zhengzhou Tobacco Research Institute of CNTC, Zhengzhou, P. R. China
,
Peng Li Zhengzhou Tobacco Research Institute of CNTC, Zhengzhou, P. R. China
&
Jianping Xie Zhengzhou Tobacco Research Institute of CNTC, Zhengzhou, P. R. ChinaCorrespondence[email protected]
Pages 682-693 | Received 20 Jul 2012, Accepted 26 Aug 2012, Published online: 19 Feb 2013

REFERENCES

  • Ambrose , J. A. , and R. S. Barua . 2004 . The pathophysiology of cigarette smoking and cardiovascular disease: An update . J. Am. Coll. Cardiol. 43 ( 10 ): 1731 – 1737 .
  • Bartalis , J. , Y. L. Zhao , J. W. Flora , J. B. Paine III , and J. B. Wooten . 2008 . Carbon-centered radicals in cigarette smoke: acyl and alkylaminocarbonyl radicals . Anal. Chem. 81 ( 2 ): 631 – 641 .
  • Baum , S. L. , I. G. M. Anderson , R. R. Baker , D. M. Murphy , and C. C. Rowlands . 2003 . Electron spin resonance and spin trap investigation of free radicals in cigarette smoke: development of a quantification procedure . Anal. Chim. Acta. 481 ( 1 ): 1 – 13 .
  • Branton , P. , and R. H. Bradley . 2011 . Effects of active carbon pore size distributions on adsorption of toxic organic compounds . Adsorption. 17 ( 2 ): 293 – 301 .
  • Chen , J. , J. Shi , L. MacNaughton , Y. Kakuda , S. Xue , Y. Ma , M. Zhang , and Y. Jiang . 2009. The scavenging capacity of combinations of lycopene, β-carotene, vitamin E, and vitamin C on the free radical 2,2-diphenyl-1-picrylhydrazyl (DPPH). J. Food. Biochem. 33(2): 232–245.
  • Deliconstantinos , G. , V. Villiotou , and J. Stavrides . 1994 . 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. 14 ( 6B ): 2717 – 2726 .
  • Fearon , I. M. , G. Phillips , T. Carr , M. Taylor , D. Breheny , and S. P Faux . 2011 . The role of oxidative stress in smoking-related diseases . Mini-Rev. Org. Chem. 8 ( 4 ): 360 – 371 .
  • Flicker , T. M. , and S. A. Green . 2001 . Comparison of gas-phase free-radical populations in tobacco smoke and model systems by HPLC . Environ. Health. Persp. 109 ( 8 ): 765 – 771 .
  • Gao , L. , Y. Wang , Y. Xu , S. L. Zhou , T. T. Zhuang , Z. Y. Wu , and J. H. Zhu . 2008 . New strategy to reduce the harmful effects of smoking: Reducing the level of N‐nitrosamines in mainstream smoke by NaA zeolite and in vitro and in vivo investigations . Clean–Soil, Air, Water 36 ( 3 ): 270 – 278 .
  • Ghosh , M. , P. Ionita , J. McAughey , and F. Cunningham . 2008 . Electron paramagnetic resonance of the free radicals in the gas-and particulate phases of cigarette smoke using spin-trapping . ARKIVOC. 12 : 74 – 84 .
  • Hoffmann , D. , and I. Hoffmann . 1997 . The changing cigarette,1950–1995 . J. Toxicol. Env. Heal. A. 50 ( 4 ): 307 – 364 .
  • Huang , M. F. , W. L. Lin , and Y. C. Ma . 2005 . A study of reactive oxygen species in mainstream of cigarette . Indoor. Air. 15 ( 2 ): 135 – 140 .
  • Jiménez-Escrig , A. , I. Jiménez-Jiménez , C. Sánchez-Moreno , and F. Saura-Calixto . 2000 . Evaluation of free radical scavenging of dietary carotenoids by the stable radical 2, 2-diphenyl-1-picrylhydrazyl . J. Sci. Food. Agr. 80 ( 11 ): 1686 – 1690 .
  • Keith , C. , and J. Derrick . 1965 . Cigarette filter efficiency as measured with a homogeneous solid aerosol . Tob. Sci. 9 : 116 – 120 .
  • Lee , J. , B. Ozcelik , and D. Min . 2003 . Electron donation mechanisms of β‐carotene as a free radical scavenger . J. Food. Sci. 68 ( 3 ): 861 – 865 .
  • Lodovici , M. , V. Akpan , S. Caldini , B. Akanju , and P. Dolara . 2007 . DNA solutionR in cigarette filters reduces polycyclic aromatic hydrocarbon (PAH) levels in mainstream tobacco smoke . Food. Chem. Toxicol. 45 ( 9 ): 1752 – 1756 .
  • Lu , X. , Z. Hua , G. Du , X. Ma , J. Cao , Z. Yang , and J. Chen . 2008 . Scavenging of free radicals in gas-phase mainstream cigarette smoke by immobilized catalase at filter level . Free. Radical. Res. 42 ( 3 ): 244 – 252 .
  • Mueller , C. , and M. Intorp . 2005 . SSPT 54-Mueller-Application of a modal reactor for efficiency testing of potential filter additives. 59th CORESTA Joint Study Groups Meeting, Stratford-upon-Avon, United Kingdom.
  • Ou , B. , and D. Huang . 2006 . Fluorescent approach to quantitation of reactive oxygen species in mainstream cigarette smoke . Anal. Chem. 78 ( 9 ): 3097 – 3103 .
  • Pauly , J. L. , H. J. Lee , E. L. Hurley , K. M. Cummings , J. D. Lesses , and R. J. Streck . 1998 . Glass fiber contamination of cigarette filters: an additional health risk to the smoker? Cancer. Epidem. Biomar. 7 ( 11 ): 967 – 979 .
  • Pauly , J. L. , S. J. Stegmeier , A. G. Mayer , J. D. Lesses , and R. J. Streck . 1997 . Release of carbon granules from cigarettes with charcoal filters . Tob. control. 6 ( 1 ): 33 – 40 .
  • Phonpala , Y. , S. Benjakul , W. Visessanguan , and J. B. Eun . 2009 . Sulfur containing compounds heated under alkaline condition: Antibrowning, antioxidative activities, and their effect on quality of shrimp during iced storage . J. Food. Sci. 74 ( 6 ): S240 – S247 .
  • Rahman , I. , S. K. Biswas , and A. Kode . 2006 . Oxidant and antioxidant balance in the airways and airway diseases . Eur. J. Pharmacol. 533 ( 1–3 ): 222 – 239 .
  • Rodgman , A. , and T. A. Perfetti . 2008. The Chemical Components of Tobacco and Tobacco Smoke (Second Edition) . Boca Raton, Florida : CRC Press.
  • Shen , X. , K. Zhong , X. Sun , H. Lu , Y. Shen , and L. X. Yu . 2010 . Scavenging effects of plant antioxidants on gas-phase free radicals in mainstream cigarette smoke . Anal. Lett. 43 ( 3 ): 446 – 454 .
  • Shi , W. H. , W. W. Sun , S. J. Yu , and M. M. Zhao . 2010 . Study on the characteristic of bovine serum albumin-glucose model system, treated by ultrasonic . Food. Res. Int. 43 ( 8 ): 2115 – 2118 .
  • Wang , C. , Y. Dai , G. Feng , R. He , W. Yang , D. Li , X. Zhou , L. Zhu , and L. Tan . 2011 . Addition of porphyrins to cigarette filters to reduce the levels of benzo [a] pyrene (B [a] P) and tobacco-specific N-nitrosamines (TSNAs) in mainstream cigarette smoke . J. Agric. Food. Chem. 59 ( 13 ): 7172 – 7177 .
  • Wang , C. , Y. Dai , G. Feng , W. Yang , R. He , X. Zhou , L. Zhu , and L. Tan . 2011 . Gingko biloba extract and cobalt porphyrin additive to remove harmful components from cigarette smoke and reduce its toxicity . Toxicol. Environ. Chem. 93 ( 10 ): 2111 – 2122 .
  • Wooten , J. B. 2011 . Gas-phase radicals in cigarette smoke: A re-evaluation of the steady-state model and the cambridge filter pad . Mini-Rev. Org. Chem. 8 ( 4 ): 412 – 426 .
  • Zhang , D. , Y. Tao , J. Gao , C. Zhang , S. Wan , Y. Chen , X. Huang , X. Sun , S. Duan , and F. Schönlau . 2002 . Pycnogenol® in cigarette filters scavenges free radicals and reduces mutagenicity and toxicity of tobacco smoke in vivo . Toxicol. Ind. Health. 18 ( 5 ): 215 – 224 .
  • Zhang , J. , Y. Guo , and C. Li . 2007 . Efficiency of compound active carbon filter in reducing free radicals in cigarettes smoke . J. Environ. Health. 24 ( 7 ): 532 – 534 .
  • Zhao , J. , and P. K. Hopke . 2012 . Concentration of reactive oxygen species (ROS) in mainstream and sidestream cigarette smoke . Aerosol. Sci. Tech. 46 ( 2 ): 191 – 197 .

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