Abstrakt

Przypisy

• 1. Al Abdan M.: Alfa-lipoic acid controls tumor growth and modulateshepatic redox state in Ehrlich-ascites-carcinoma-bearing mice.Sci. World J., 2012; 2012: 509838
  Google Scholar
• 2. Aly H.A., Lightfoot D.A., El-Shemy H.A.: Modulatory role of lipoicacid on lipopolysaccharide-induced oxidative stress in adult rat Sertolicells in vitro. Chem. Biol. Interac., 2009; 182: 112-118
  Google Scholar
• 3. Aspinall R.J., Weis S.M., Barnes L., Lutu-Fuga K., Bylund D.J., PockrosP.J., Cheresh D.A.: A Src family kinase inhibitor improves survivalin experimental acute liver failure associated with elevated cerebraland circulating vascular endothelial growth factor levels. Liver Int.,2011; 31: 1222-1230
  Google Scholar
• 4. Biswas S., Chida A.S., Rahman I.: Redox modifications of proteinthiols:emerging roles in cell signalling. Biochem. Pharmacol., 2006;71: 551-564
  Google Scholar
• 5. Castro M.C., Massa M.L., Schinella G., Gagliardino J.J., FranciniF.: Lipoic acid prevents liver metabolic changes induced by administrationof a fructose-rich diet. Biochem. Biophys. Acta, 2013; 1830:2226-2232
  Google Scholar
• 6. Crimi E., Sica V., Williams-Ignarro S., Zhang H., Slutsky A.S., IgnarroL.J., Napoli C.: The role of oxidative stress in adult critical care.Free Radic. Biol. Med., 2006; 40: 398-406
  Google Scholar
• 7. Cummings B.P., Stanhope K.L., Graham J.L., Evans J.L., BaskinD.G., Griffen S.C., Havel P.J.: Dietary fructose accelerates the developmentof diabetes in UCD-T2DM rats: amelioration by the antioxidant,α-lipoic acid. Am. J. Physiol. Regul. Integr. Comp. Physiol.,2010; 298: 1343-1350
  Google Scholar
• 8. Depboylu B., Giriş M., Olgaç V., Dogru-Abbasoglu S., Uysal M.: Responseof liver to lipopolysaccharide treatment in male and femalerats. Exp. Toxicol. Pathol., 2013; 65: 645-650
  Google Scholar
• 9. Dudek M., Bilska-Wilkosz A., Knutelska J., Mogilski S., BednarskiM., Zygmunt M., Iciek M., Sapa J., Bugajski D., Filipek B., Włodek L.:Are anti-inflammatory properties of lipoic acid associated with theformation of hydrogen sulfide? Pharmacol. Rep., 2013; 65: 1018-1024
  Google Scholar
• 10. Ellman G.L.: SH group determination in biological fluids. Anal.Biochem., 1970; 46: 233-235
  Google Scholar
• 11. Fujii Y., Segawa R., Kimura M., Wang L., Ishii Y., Yamamoto R.,Morita R., Mitsumori K., Shibutani M.: Inhibitory effect of α-lipoicacid on thioacetamide-induced tumor promotion through suppressionof inflammatory cell responses in a two-stage hepatocarcinogenesismodel in rats. Chem. Biol. Interact., 2013; 205: 108-118
  Google Scholar
• 12. Goraca A., Huk-Kolega H., Piechota A., Kleniewska P., Ciejka E.,Skibska B.: Lipoic acid-biological and therapeutic potential. Pharmacol.Rep., 2011; 63: 849-858
  Google Scholar
• 13. Han D., Sen C.K., Roy S., Kobayashi M.S., Tritschler H.J., PackerL.: Protection against glutamate-induced cytotoxicity in C6 glial cellsby thiol antioxidants. Am. J. Physiol., 1977; 273: 1771-1778
  Google Scholar
• 14. Jung T.S., Kim S.K., Shin H.J., Jeon B.T., Hahm J.R., Roh G.S.:α-lipoic acid prevents non-alcoholic fatty liver disease in OLETFrats. Liver Int., 2012; 32: 1565-1573
  Google Scholar
• 15. Kaur G., Tirkey N., Chopra K.: Beneficial effect of hesperidin on lipopolysaccharide-inducedhepatotoxicity. Toxicology, 2006; 226: 152-160
  Google Scholar
• 16. Kaya-Dagistanli F., Tanriverdi G., Altinok A., Ozyazgan S., OzturkM.: The effects of alpha lipoic acid on liver cells damages and apoptosisinduced by polyunsaturated fatty acids. Food Chem. Toxicol.,2013; 53: 84-93
  Google Scholar
• 17. Knaur G., Tirkey N., Bharrhan S., Chanana V., Rishi P., ChopraK.: Inhibition of oxidative stress and cytokine activity by curcuminin amelioration of endotoxin-induced experimental hepatoxicity inrodents. Clin. Exp. Immunol., 2006; 145: 312-321
  Google Scholar
• 18. Kwiecień B., Dudek M., Bilska-Wilkosz A., Knutelska J., BednarskiM., Kwiecień I., Zygmunt M., Iciek M., Sokołowska-JeżewiczM., Sapa J., Włodek L.: In vivo anti-inflammatory activity of lipoicacid derivatives in mice. Postępy Hig. Med. Dośw., 2013; 67: 331-338
  Google Scholar
• 19. Maczurek A., Hager K., Kenklies M., Sherman M., Martins R.,Engel J., Carlson D.A., Munch G.: Lipoic acid as an anti-inflammatoryand neuroprotective treatment for Alzheimer’s disease. Adv. DrugDeliv. Rev., 2008; 60: 1463-1470
  Google Scholar
• 20. Mihai B., Lăcătuşu C., Graur M., Cjevschi-Prelipceam C., MihaiC.: Pharmacologic therapy in peripheral diabetic polyneuropathy.Rev. Med. Chir. Soc. Med. Nat. Iasi, 2010; 114: 332-341
  Google Scholar
• 21. Saad E.I., El-Gowilly S.M., Sherhaa M.O., Bistawroos A.F.: Role ofoxidative stress and nitric oxide in the protective effects of alpha–lipoic acid and aminoguanidine against isoniazid-rifampicin-inducedhepatotoxicity in rats. Food Chem. Toxicol., 2010; 48: 1869-1875
  Google Scholar
• 22. Saeed N.M., El-Demerdash E., Abdel-Rahman H.M., AlgandabyM.M., Al-Abbasi F.A., Abdel-Naim A.B.: Anti-inflammatory activityof methyl palmitate and ethyl palmitate in different experimentalrat models. Toxicol. Appl. Pharmacol., 2012; 264: 84-93
  Google Scholar
• 23. Tian Y.F., He C.T., Chen Y.T., Hsieh P.S.: Lipoic acid suppressesportal endotoxemia-induced steatohepatitis and pancreatic inflammationin rats. World J. Gastroenterol., 2013; 19: 2761-2771
  Google Scholar
• 24. Tian Y.F., Hsieh C.H., Hsieh Y.J., Chen Y.T., Peng Y.J., Hsieh P.S.:α-Lipoic acid prevents mild portal endotoxemia-induced hepatic inflammationand β cell dysfunction. Eur. J. Clin. Invest., 2012; 42: 637-648
  Google Scholar
• 25. Valdecantos M.P., Perez-Matute P., Gonzalez-Muniesa P., Prieto-HontoriaP.L., Moreno-Aliaga M.J., Martinez J.A.: Lipoic acid administrationprevents nonalcoholic steatosis linked to long-termhigh-fat feeding by modulating mitochondrial function. J. Nutr.Biochem., 2012; 23: 1676-1684
  Google Scholar
• 26. Vanasco V., Evelson P., Boveris A., Alverez S.: In situ and realtime muscle chemiluminescence determines singlet oxygen involvementin oxidative damage during endotoxemia. Chem. Biol. Interac.,2010; 184: 313-318
  Google Scholar
• 27. Xu J., Gao H., Song L., Yang W., Chen C., Deng Q., Huang Q., YangJ., Huang F.: Flaxseed oil and alpha-lipoic acid combination ameliorateshepatic oxidative stress and lipid accumulation in comparisonto lard. Lipid Health Dis., 2013; 12: 58
  Google Scholar
• 28. Xu J., Yang W., Deng Q., Huang Q., Yang J., Huang F.: Flaxseedoil and alpha-lipoic acid combination reduces atherosclerosisrisk factors in rats fed a high-fat-diet. Lipid Health Dis.,2012; 11: 148
  Google Scholar
• 29. Yagi K.: A simple fluorometric assay for lipids peroxides in bloodplasma. Biochem. Med., 1976; 15: 212-216
  Google Scholar
• 30. Yao H.W., Yue L.: Effect and mechanisms of FR167653, a dualinhibitor of TNF-α and IL-1, on BCG plus LPS induced-liver injury.Inflamm. Res., 2005; 54: 471- 477
  Google Scholar
• 31. Zhu J.H., Lei X.G.: Lipopolysaccharide-induced hepatic oxidativeinjury is not potentiated by knockout of GPX1 and SOD1 in mice.Biochem. Biophys. Res. Commun., 2011; 1: 559-563
  Google Scholar
• 32. Zou W., Roth R.A., Younis H.S., Malle E., Ganey P.E.: Neutrophil–cytokine interactions in a rat model of sulindac-induced idiosyncraticliver injury. Toxicology, 2011; 290: 278-285
  Google Scholar

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