Carboplatin (Carbo-Pt), an alkylating agent cleared from the plasma through glomerular filtration, is commonly used for the treatment of ovarian cancer. When administered at high dosage or to patients with reduced renal function, Carbo-Pt may be nephrotoxic. The dose of Carbo-Pt is calculated with Calvert formula, using the value of 24-hour creatinine clearance (24h Ccr) as an estimate of glomerular filtration rate (GFR). The aim of this study was to evaluate the possibility of individualizing the dose of Carbo-Pt using an alternative method to estimate GFR, based on body composition analysis, and then to assess the nephrotoxicity of Carbo-Pt therapy individualized with this new method. First, we evaluated the agreement between GFR (renal clearance of diethylene triamine pentaacetic acid (99mTc-DTPA)), 24h Ccr, and the new estimate of GFR (BCMGFR) calculated on the basis of individual values of body cell mass (BCM) and plasma creatinine. BCMGFR gave a better estimate of GFR than 24h Ccr. Then, we evaluated the nephrotoxicity of a combination chemotherapy based on Carbo-Pt (AUC(5-6)) in 23 patients affected by ovarian cancer. The dose of Carbo-Pt was adjusted to residual renal function of patients, evaluated as BCMGFR. No case of acute renal failure was observed with this treatment regimen. Urinary excretion of proteins (albumin, beta2-microglobulin, and retinol-binding protein) and tubular enzymes, measured as markers of tubular damage, increased significantly and transiently only in the first days after chemotherapy, whereas no evidence of chronic nephrotoxic effect was documented. Dose individualization, using the value of BCMGFR, may minimize nephrotoxicity due to Carbo-Pt therapy
Dose Individualization Can Minimize Nephrotoxicity due to Carboplatin Therapy in Patients With Ovarian Cancer
DONADIO, CARLO;GADDUCCI, ANGIOLO
2009-01-01
Abstract
Carboplatin (Carbo-Pt), an alkylating agent cleared from the plasma through glomerular filtration, is commonly used for the treatment of ovarian cancer. When administered at high dosage or to patients with reduced renal function, Carbo-Pt may be nephrotoxic. The dose of Carbo-Pt is calculated with Calvert formula, using the value of 24-hour creatinine clearance (24h Ccr) as an estimate of glomerular filtration rate (GFR). The aim of this study was to evaluate the possibility of individualizing the dose of Carbo-Pt using an alternative method to estimate GFR, based on body composition analysis, and then to assess the nephrotoxicity of Carbo-Pt therapy individualized with this new method. First, we evaluated the agreement between GFR (renal clearance of diethylene triamine pentaacetic acid (99mTc-DTPA)), 24h Ccr, and the new estimate of GFR (BCMGFR) calculated on the basis of individual values of body cell mass (BCM) and plasma creatinine. BCMGFR gave a better estimate of GFR than 24h Ccr. Then, we evaluated the nephrotoxicity of a combination chemotherapy based on Carbo-Pt (AUC(5-6)) in 23 patients affected by ovarian cancer. The dose of Carbo-Pt was adjusted to residual renal function of patients, evaluated as BCMGFR. No case of acute renal failure was observed with this treatment regimen. Urinary excretion of proteins (albumin, beta2-microglobulin, and retinol-binding protein) and tubular enzymes, measured as markers of tubular damage, increased significantly and transiently only in the first days after chemotherapy, whereas no evidence of chronic nephrotoxic effect was documented. Dose individualization, using the value of BCMGFR, may minimize nephrotoxicity due to Carbo-Pt therapyI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.