Veterinary Research Communications

, Volume 41, Issue 3, pp 195–199 | Cite as

Plasma alpha-tochopherol determined by HPLC in dogs at different stages of chronic kidney disease: a retrospective study

  • Ilaria Lippi
  • F. Perondi
  • V. Meucci
  • C. Mannarini
  • L. Intorre
  • G. Guidi
Original Article

Abstract

The aim of the present study was to investigate retrospectively the plasma concentration of alpha-tocopherol in dogs with naturally acquired chronic kidney disease (CKD), at different stages of severity. Forty dogs (CKD group) with different stages of CKD (IRIS 1 n=12, IRIS 2 n=8, IRIS 3 n=11, IRIS 4 n=9) and 20 clinically healthy dogs were considered. Plasma alpha-tocopherol was assessed in both groups through high performance liquid chromatography (HPLC). Dogs of CKD group showed significantly lower (p=0.0002) levels of plasma alpha-tocopherol compared with clinically healthy dogs. A significant difference (p<0.04) in the number of patients with plasma alpha-tocopherol > or ≤ 21.5 ppm was found in CKD patients at different stages of severity. No significant correlation between plasma levels of alpha-tocopherol and plasma creatinine was found. In the present study, dogs affected by spontaneous CKD showed significantly lower plasma concentrations of alpha-tocopherol compared with clinically healthy dogs. Plasma alpha-tocopherol deficiency seems to be more severe in IRIS stage 1 and 4, compared with IRIS stage 2 and 3. The finding of marked alpha-tocopherol deficiency in patients in IRIS stage 1 should encourage further studies on the early use of prescription renal diet and antioxidant in this group of patients.

Keywords

Alpha-tocopherol CKD HPLC Dog IRIS stage 

Notes

Compliance with ethical standards

Conflict of interest

The Authors declare no conflict of interest. This paper was not supported by grants.

References

  1. An WS, Kim HJ, Cho KH, Vaziri ND (2009) Omega 3 fatty acid supplementation attenuates oxidative stress, inflammation, and tubulointerstitial fibrosis in the remnant kidney. Am J Phys 297:F895–F903Google Scholar
  2. Arellano-Mendoza MG, Vargas-Robles H, Del Valle-Mondragon L, Rios A, Escalante B (2011) Prevention of renal injury and endothelial dysfunction by chronic L-arginine and antioxidant treatment. Ren Fail 33:47–53CrossRefPubMedGoogle Scholar
  3. Brown SA (2008) Oxidative stress and chronic kidney disease. Vet Clin North Am Small Anim Pract 38(1):157–166CrossRefPubMedGoogle Scholar
  4. Cortadellas O, Talavera J, Fernandez Del Palacio MJ (2014) Evaluation of the effects of a therapeutic renal diet to control proteinuria in proteinuric non-azotemic dogs treated with benazepril. J Vet Intern Med 28(1):30–37CrossRefPubMedGoogle Scholar
  5. Galler A, Tran JL, Krammer-Lukas S, Holler U, Thalhammer JG, Zentek J, Willmann M (2012) Blood vitamin levels in dogs with chronic kidney disease. Vet J 192(2):226–231CrossRefPubMedGoogle Scholar
  6. Hall JA, Yerramilli M, Obare E, Yerramilli M, Panickar KS, Bobe G, Jewell DE (2016) Nutritional interventions that slow the age associated decline in renal function in a canine geriatric model for elderly humans. J Nutr Health Aging 20(10):1010–1023CrossRefPubMedGoogle Scholar
  7. Karamouzis I, Sarafidis PA, Karamouzis M, Iliadis S, Haidich AB, Sioulis A, Triantos A, Vavatsi-Christaki N, Grekas DM (2008) Increase in oxidative stress but not in antioxidant capacity with advancing stages of chronic kidney disease. Am J Nephrol 28(3):397–404CrossRefPubMedGoogle Scholar
  8. Lippi I, Meucci V, Guidi G, Soldani G (2008) Glomerular filtration rate evaluation in the dog throughout the plasmatic clearance of iohexol: simplified methods. Veterinaria 22(1):53–60Google Scholar
  9. Liu P, Feng Y, Wang Y, Zhou Y, Zhao L (2015) Protective effect of vitamin E against acute kidney injury. Biomed Mater Eng 26(1):S2133–S2144PubMedGoogle Scholar
  10. Montazerifar F, Hashemi M, Karajibani M, Dikshit M (2010) Hemodialysis alters lipid profiles, total antioxidant capacity and vitamins a, E and C concentrations in humans. J Med Food 13(6):1490–1493CrossRefPubMedGoogle Scholar
  11. Polzin DJ (2011) Bartges and Polzin nephrology and urology of small animals. Wiley-Blackwell, USAGoogle Scholar
  12. Shing CM, Fassett RG, Peake JM, Coombes JS (2014) Effect of tocopherol on atherosclerosis, vascular function, and inflammation in apolipoprotein E knockout mice with subtotal nephrectomy. Cardiovasc Ther 32(6):270–275CrossRefPubMedGoogle Scholar
  13. Sung CC, Hsu YC, Chen CC, Lin YF, Wu CC (2013) Oxidative stress and nucleic acid oxidation in patients with chronic kidney disease. Oxidative Med Cell Longev 2013:301982CrossRefGoogle Scholar
  14. Tbahriti HF, Kaddous A, Bouchenak M, Mekki K (2013) Effect of different stages of chronic kidney disease and renal replacement therapies on oxidant-antioxidant balance in uremic patients. Biochem Res Int 2013:358985CrossRefPubMedPubMedCentralGoogle Scholar

Copyright information

© Springer Science+Business Media Dordrecht 2017

Authors and Affiliations

  1. 1.Department of Veterinary ScienceUniversity of PisaPisaItaly

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