Development of Prognostic Criteria of Kidney Transplantation Complications Based on Open-Circuit Potential Moniroting Using Probit Analysis

At the present time, early posttransplant complications in patients are diagnosed and evaluated based on the analysis of a complex of clinical observations and laboratory tests reflecting the status of various bodily systems. One important diagnostic parameter for transplant patients is the status of the prooxidant/antioxidant balance in bodily fluids (such as whole blood or blood plasma), which reflects the position of redox equilibrium of the organism. The organ transplant may be subject to various types of injury that would affect the prooxidant/antioxidant homeostasis. It has been previously shown that an electrochemical measurement of open-circuit potential (OCP) at the platinum electrode in blood plasma or blood serum is a reflection of the redox state of these biological media [1], and the final OCP value after 15 min of measurement, corresponding to near-equilibrium conditions, was used as the characteristic OCP value for further analysis, termed “redox potential” (RP) in relevant medical literature. Moreover, changes in the time dependence of the measured RP correlate with clinically diagnosed transplant dysfunction, with RP changes often preceding clinical symptoms by one or more days [2]. Thus, in order to develop prognostic criteria to predict the probability of posttransplant complications, the above method of RP measurement was used, and statistical analysis of RP values was performed. RP measurements were performed in blood plasma against a silver/silver chloride reference electrode using an IPC-Compact potentiostat (NPO “Volta”). The electrode was pre-treated prior to each measurement according to the previously developed method [1]. A total of 59 kidney transplant patients took part in the study (42 male and 17 female) in the early postoperative recovery period (20-35 days). Statistical analysis was performed using the STATISTICA 6.0 (StatSoft), EViews 8.0 (IHS Global Inc.) and IDE Microsoft Visual Basic 6.0 software. Patients who took part in the study can be categorized into two groups, according to their recovery dynamics: 35 patients had unremarkable recoveries, without any complications, while 24 patients experienced complications. A total of 967 analyses was performed. Statistical analysis performed on the RP values and clinical/laboratory data has yielded average values of complication probability depending on RP, shown in Fig. 1: an RP more positive than +20 mV corresponds to a 50 percent probability of posttransplant complications