Effects of Occupational Inorganic Dust Exposure on Plasma Glutathione
-
Pavlina L. Gidikova
,
Gospodinka R. Prakova
,
Gergana N. Sandeva
,
Kamelia H. Haracherova
,
Tanya T. Tacheva
,
Tatyana I. Vlaykova
Abstract
None
1. Schins RP, Keman S, Borm PJ (1997). Blood antioxidant status in coal dust induced respiratory disorders: a longitudinal eval-uation of multiple biomarkers. Biomarkers, 2(1): 45-50.
2. Behr J, Degenkolb B, Beinert T, Krombach F, Vogelmeier C (2000). Pulmunary gluta-thione levels in acute episodes of fermer’s lung. Am J Respir Crit Care Med, 161(6): 1968-71.
3. Hoidal RR, Fox RB, LeMarbe PA, Perri R, Repine JE (1981). Altered oxidative meta-bolic responses in vitro of alveolar mac-rophages from asymptomatic cigarette smokers. Am Rev Respir Dis. 123: 85-89.
4. Schaberg T, Haller H, Rau M, Kaiser D, Fassbender M, Lode H (1992). Superox-ide anion release induced by platelet acti-vating factor is increased in human alveo-lar macrophages from smokers. Eur Respir J. 5: 387-393.
5. Rahman I, MacNee W (1996). Role of oxi-dants/antioxidants in smoking-induced airways diseases. Free Radic Biol Med. 21: 669-681.
6. Gould NS, Min E, Gauthier S, Martin RJ, Day BJ (2011). Lung glutathione adaptive responses to cigarette smoke exposure. Respir Res, 12: 133.
7. Michelet F, Gueguen R, Leroy P, Wellman M, Nicolas A, Siest G (1995). Blood and plasma glutathione measured in healthy subjects by HPLC: relation to sex, aging, biological variables, and life habits. Clin Chem, 41(10): 1509-1517.
8. Mohammadi H, Dehghan SF, Alireza Tahamtan A, Golbabaei F (2018). Evalua-tion of potential biomarkers of exposure to crystalline silica: A case study in an in-sulator manufacturer. Toxicol Ind Health, 34(7): 491-498.
2. Behr J, Degenkolb B, Beinert T, Krombach F, Vogelmeier C (2000). Pulmunary gluta-thione levels in acute episodes of fermer’s lung. Am J Respir Crit Care Med, 161(6): 1968-71.
3. Hoidal RR, Fox RB, LeMarbe PA, Perri R, Repine JE (1981). Altered oxidative meta-bolic responses in vitro of alveolar mac-rophages from asymptomatic cigarette smokers. Am Rev Respir Dis. 123: 85-89.
4. Schaberg T, Haller H, Rau M, Kaiser D, Fassbender M, Lode H (1992). Superox-ide anion release induced by platelet acti-vating factor is increased in human alveo-lar macrophages from smokers. Eur Respir J. 5: 387-393.
5. Rahman I, MacNee W (1996). Role of oxi-dants/antioxidants in smoking-induced airways diseases. Free Radic Biol Med. 21: 669-681.
6. Gould NS, Min E, Gauthier S, Martin RJ, Day BJ (2011). Lung glutathione adaptive responses to cigarette smoke exposure. Respir Res, 12: 133.
7. Michelet F, Gueguen R, Leroy P, Wellman M, Nicolas A, Siest G (1995). Blood and plasma glutathione measured in healthy subjects by HPLC: relation to sex, aging, biological variables, and life habits. Clin Chem, 41(10): 1509-1517.
8. Mohammadi H, Dehghan SF, Alireza Tahamtan A, Golbabaei F (2018). Evalua-tion of potential biomarkers of exposure to crystalline silica: A case study in an in-sulator manufacturer. Toxicol Ind Health, 34(7): 491-498.
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| Issue | Vol 50 No 7 (2021) | |
| Section | Letter to the Editor | |
| DOI | https://doi.org/10.18502/ijph.v50i7.6646 | |
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How to Cite
1.
Gidikova PL, R. Prakova G, Sandeva GN, H. Haracherova K, T. Tacheva T, I. Vlaykova T. Effects of Occupational Inorganic Dust Exposure on Plasma Glutathione. Iran J Public Health. 2021;50(7):1495-1496.
