Creatinine kinetic modelling: a simple and reliable tool for the assessment of protein nutritional status in haemodialysis patients

While the mathematical modelling of urea kinetics is in wide use for evaluating treatment adequacy and protein nutrition in dialysis patients, the kinetics of creatinine generation in dialysis patients has been relatively unexplored. In this study creatinine kinetic modelling as a clinical tool was investigated in a group of 90 patients treated by haemodialysis (n=20), haemodiafiltration (60), haemofiltration (7), or biofiltration (3) over a 6-36-month period. A single pool model of creatinine kinetics was employed to obtain monthly values of creatinine distribution space and creatinine appearance rate. Extrarenal creatinine degradation rate, estimated using a clearance of 0.038 l/kg/24 h as suggested by Mitch and co-workers, was added to creatinine appearance rate in urine and dialysate to calculate a corrected creatinine index (CI). Extrarenal degradation accounted for 12±2%) of CI. CI was higher in males (22.4±4.5 mg/kg/24h) than females (19.8±4.8) and decreased with age, falling off more sharply for the female group (CI= 29.9-0.185.age, R=0.72) than the males (CI= 24.1-0.030.age, R=0.31). CI was found to correlate strongly with protein catabolic rate determined by urea kinetic modelling (CI=8.84+10.91.PCR). Low or reduced Cl was associated in this study group with severe malnutrition status and high mortality rate. CI is suggested as a strong predictor of patient morbidity and mortality.