Assessment of the state and quality of treatment in posttransplant kidney patients, by monitoring the serum redox potential

Monitoring the serum redox potential (RP) in posttransplant liver patients has previously shown that the early noninvasive diagnosis of acute graft dysfunction could be made by recording the changes in the potential measured. The changes in the steady-state potentials of a platinum electrode were studied in the treatment of patients after kidney transplantation. It has been established that the serum RP change of > 25 mW is indicative of the onset of graft dysfunction and it may be also associated with other complications or drug overdosage. An association was found between the changes in RP values and the results of treatment with plasmapheresis in the above group of patients.

1. Ziegler E. The redox potential of the blood in vivo and in vitro. Springfield, Illinois: Charles C. Thomas Publ., 1965.

2. Marmasae C., Grosz H.J. Direct experimental evidence of a functionally active electron transport system in human blood. Nature 1964;202(4927):94.

3. Grosz H.J., Farmer B.B. Reduction– oxidation potential of blood as a function of partial pressure of oxygen. Nature 1967;213(5077):717–8.

4. Goldin M.M., Blanchard G.J., Evseev A.K. et al. Redox potential measurement in aqueous solutions and biological media. Proceedings of 212th ESC Meeting, october 7–12 Washington, 2007; p. 815.

5. Goldin M.M., Volkov A.G., Khubutiya M.Sh. et al. Redox potential measurement in aqueous solutions and biological media. ECS Transactions 2008;11(21):39–49.

6. Khubutiya M.Sh., Krylov V.V., Romasenko M.V. et al. Redox Potential as a Reflection of Hyperbaric Oxygenation Effect on Certain Systems in the Organism. Proceedings of 216th ESC Meeting, october 4–9, Vienna 2009: abstr 1894.

7. Хубутия М.Ш., Гольдин М.М., Крылов В.В. и др. Редокс-потенциалы сыворотки крови больных с острой церебральной патологией при лечении методом гипербарической оксигенации. Гипербар физиол и мед 2009;4:1–12.

8. Rael L.T., Bar-Or R., Mains C.W. et al. Plasma oxidation-reduction potential and protein oxidation in traumatic brain injury. J Neurotrauma 2009;26(8):1203–11.

9. Kolls J.K. Oxidative stress in sepsis: a redox redux. J Clin Invest 2006; 116(4):860–3.

10. Anzai J., Guo B., Osa T. Electrochemically accelerated adsorption of serum albumin on the surface of platinum and gold electrodes. Chem Pharm Bull (Tokyo) 1994;42(11):2391–3.

11. Dolatshahi-Pirouz A., Rechendorff K., Hovgaard M.B. et al. Bovine serum albumin adsorption on nano-rough platinum surfaces studied by QCM-D. Colloids and Surfaces B: Biointerfaces 2008;66(1):53–9.

12. Khubutiya M.Sh., Chzhao A.V., Goldin M.M. et al. The monitoring of blood serum redox potential in patients after liver transplantation. Proceedings of 61st Annual Meeting of the International Society of Electrochemistry, sept 26 – oct 01 Nice 2010;11:81.

13. Khubutiya M.Sh., Goldin M.M., Romasenko M.V. et al. Redox potentials of blood serum in patients with acute cerebral pathology. ECS Transactions 2010;25(19):63–71.

14. Khubutiya M.Sh., Evseev A.K., Kolesnikov V.A. Measurements of platinum electrode potential in blood and blood plasma and serum. Russian J Electrochem 2010;46(5):537–41.