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Malondialdehyde and Pentosidine in Young Type 1 Diabetic Patients

-36. 11. Grotto D, Santa Maria LD, Boeira S, Valentini J, Charão MF, Moro AM, Nascimento PC, Pomblum VJ, Garcia SC. Rapid quantification of malondialdehyde in plasma by high performance liquid chromatography-visible detection. Journal of Pharma Biomed Anal. 2007;43(2):619-24. 12. Kroll MH, Chesler R, Hagengruber C, Blank DW, Kestner J, Rawe M.. Automated determination of urinary creatinine without sample dilution: theory and practice. Clinical Chemistry. 1986;32:446-52. 13. Odetti P, Fogarty J, Sell DR, Monnier VM. Chromatographic

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Malondialdehyde levels can be measured in serum and saliva by using a fast HPLC method with visible detection / Determinarea printr-o metodă HPLC-VIS rapidă a concentraţiilor serice şi salivare ale malondialdehidei

, Milzani A. Biomarkers of oxidative damage in human disease. Clin Chem. 2006 Apr;52(4):601-23. DOI: 10.1373/clinchem.2005.061408. 8. Sandor R, Leucuta D, Dronca E, Niculae A, Cret V, Silaghi C, et al. Low Serum Paraoxonase-1 Lactonase and Arylesterase Activities in Obese Children and Adolescents. Rev Romana Med Lab. 2015 Dec;23(4):385-396. DOI: 10.1515/rrlm-2015-0038. 9. Lefevre G, Bonneau C, Rahma S, Chanu B, Brault D, Couderc R, et al. Determination of plasma protein- bound malondialdehyde by derivative spectrophotometry. Eur J Clin Chem

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Melatonin Supplementation Decreases Aerobic Exercise Training Induced-Lipid Peroxidation and Malondialdehyde in Sedentary Young Women

levels and functional properties of high-density lipoprotein cholesterol in the metabolic syndrome. Am. J. Cardiol., 2011, 107, 1168–1172. 15. Chan T.Y., Tang P.L., Effect of melatonin on the maintenance of cholesterol homeostasis in the rat. Endocrine Res., 1995, 21, 681–696. 16. Child R.B., Wilkinson D.M., Fallowfield J.L., Donnelly A.E., Elevated serum antioxidant capacity and plasma malondialdehyde concentration in response to a simulated half-marathon run. Med. Sci. Sports Exerc., 1998, 30, 1603–1607. 17. Col C., Dinler K., Hasdemir O., Buyukasik

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Effect of vitamin E (DL-all-rac-a-tocopherol acetate) and nano particles of selenium on growth, survival, body composition and whole body glutathione peroxidase (GPX) and malondialdehyde (MDA) in Rutilus kutum (Kamensky, 1901)

Abstract

The effect of vitamin E (100 mg kg−1) and nano-selenium (1 mg kg−1), which have a nutritional relationship separately and in combination, was investigated on growth, survival, carcass composition, body glutathione peroxidase activity, and body malondialdehyde content of Rutilus kutum. Results showed that vitamin E is capable of improving growth, FCR and WG in Kutum fingerlings; however, nano-selenium is not. According to this study, vitamin E can improve growth and selenium can improve glutathione peroxidase activity in Rutilus kutum larvae.

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Oxidant/Antioxidant Status in Patients with Behçet Disease

malondialdehyde levels following colchicine and vitamin E treatment in Behçet's disease. Methods Find Exp Clin Pharmacol. 2007; 29(8):521-524. PMID:18040527. Buldanlioglu S, Turkmen S, Ayabakan HB, Yenice N, Vardar M, Dogan S, Mercan E. Nitric oxide, lipid peroxidation and antioxidant defence system in patients with active or inactive Behçet's disease. Br J Dermatol. 2005;153(3):526-30. doi:10.1111/j.1365-2133.2005.06543.x PMID:16120137. Bekpinar S, Kilic N, Unlucerci Y, Akdag-Kose A, Azizlerli G, Ozbek-Kir Z. Evaluation

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Fatty Acid Profile and Oxidative Stress of Thigh Muscles in Chickens Fed The Ration Enriched in Lycopene, Selenium Compounds or Fish Oil

. (Warsaw), 54: 203–214. Czauderna M., Kowalczyk J., Niedźwiedzka K.M., Leng L., Cobanova K. (2009 c). Dietary selenized yeast and CLA isomer mixture affect fatty- and amino acid concentrations in the femoral muscles and liver of rats. J. Anim. Feed Sci., 18: 348–361. Czauderna M., Kowalczyk J., Marounek M. (2011). The simple and sensitive measurement of malondialdehyde in selected specimens of biological origin and some feed by reversed phase high performance liquid chromatography. J. Chromatogr., B, 879: 2251–2258. Czauderna M., Kowalczyk J., Marounek M. (2012

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Evaluation of oxidative stress in sheep infected with Psoroptes ovis using total antioxidant capacity, total oxidant status, and malondialdehyde level

.W., Alasdair J.N., John F.H.: Host transcription factors in the immediate pro-inflammatory response to the parasitic mite Psoroptes ovis. Plos One 2011, 9, e24402. 36. van den Broek A.H., Huntley J.F.: Sheep scab: the disease, pathogenesis and control. J Comp Pathol 2003, 128, 79–91. 37. Yilmaz S., Issi M., Kandemir F.M., Gul Y.: Malondialdehyde and total antioxidant levels and hematological parameters of beef cattle with coccidiosis. J Vet Med Yüzüncü Yıl Univ 2014, 25, 41–45. 38. Zaher K.S., Ahmed W.M.: Impact of foot and mouth disease on oxidative

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Influence Variation of Tempe Gembus (An Indonesian Fermented Food) on Homocysteine and Malondialdehyde of Rats Fed an Atherogenic Diet

receptors, ERK1/2, and NFкappaB. FASEB J 20: 1476-1481, 2006. 27. Lee J, Renita M, Fioritto RJ, ST.Martin SK, Schwartz SJ, Vodovotz Y . Isoflavonee characterization and antioxidant activity of Ohio soybeans. J Agric Food Chem 52: 2647-2651, 2004. 28. Arab S, Khaza’ai H, Hambali Z, Ahmad Z . Homocysteine and malondialdehyde (MDA) levels associated with the occurrence of cardiovascular disease (CVD) in chronic renal failure (CRF) in Malaysia. Global Journal of Health Science 3: 119-127, 2011. 29. Moselhy SS, Demerdash SH . Plasma homocysteine and

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Low Serum Paraoxonase-1 Lactonase and Arylesterase Activities in Obese Children and Adolescents

adolescents. J Pediatr Endocrinol Metab. 2014 Jul;27(7-8):667-75. DOI: 10.1515/jpem-2013-0337 14. Ferré N, Feliu A, García-Heredia A, Marsillach J, París N, Zaragoza-Jordana M, et al. Impaired paraoxonase-1 status in obese children. Relationships with insulin resistance and metabolic syndrome. Clin Biochem. 2013 Dec;46(18):1830-6. DOI: 10.1016/j.clinbiochem.2013.08.020 15. Conti M, Moran PC, Levillain P, Lemonnier A. Improved fluorimetric determination of malondialdehyde. Clin Chem. 1991 Jul;37(7):1273-5. 16. Dobiásová M. AIP-atherogenic index of plasma as

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MDA and GSH-Px activity in transition dairy cows under seasonal variations and their relationship with reproductive performance

Abstract

Introduction: The purpose of the current study was to evaluate the blood glutathione peroxidase (GSH-Px) and malondialdehyde (MDA) levels under seasonal variations in dairy cows during transition period, and to assess the relationship between chosen reproductive parameters, GSH-Px, and MDA.

Material and Methods: Holstein cows calving in January were assigned into winter group (n = 42), while cows calving in August were assigned into summer group (n = 42). Blood samples were collected from the jugular vein 21, 14, and 7 days before calving, at calving (0 day), and 7, 14, and 21 days after calving. Reproductive parameters obtained from farm records were evaluated.

Results: In both groups of cows, GSH-Px activity decreased from 21 days before calving to day 0, and it gradually continued to increase until 21 days after calving. GSH-Px activity was higher in winter group compared to summer group during the transition period (P < 0.05). MDA levels in both groups increased over time starting from 21 days before calving to 0 day, but it gradually decreased thereafter. MDA levels were higher in summer group compared to winter group during the transition periods (P < 0.05). Summer group of cows showed higher intervals of calving-to-oestrus, calving-to-conception, and higher insemination index (P < 0.01). Negative correlation was recorded between GSH-Px and MDA during all examination days (P < 0.01). MDA levels correlated with calving to conception interval on day 21 before calving and day 0 (P < 0.01) and insemination index on day 0 and 21 days after calving (P < 0.01). GSH-Px activity was negatively correlated with calving to conception interval on day 21 before calving, day 0, and 21 days (P < 0.01) after calving. Negative correlation on day 21 before calving and day 0 was also determined between GSH-Px and insemination index (P < 0.01).

Conclusion: This study showed that blood oxidant and antioxidant levels have affected the fertility parameters in cows under seasonal variations.

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