We propose a new formula for eCrCl in patients that appears more accurate than current formulae and may have implications for chemotherapy efficacy and toxicity. Studies to validate this formula are under way.
e13503 Background: Renal function affects chemotherapy pharmacokinetics. Carboplatin dosing by Calvert’s formula is more pharmacologically rational, but requires an accurate glomerular filtration rate (GFR). Calvert argues that this requires measuring GFR (mGFR) instead of an estimated GFR (eGFR). Considering skeletal muscle is the major source for creatinine, this study looks to develop a new eGFR equation in cancer patients using lean body mass (LBM). Methods: We prospectively followed 22 stage IV cancer patients (10 female, 12 male; median age 69) who received carboplatin. mGFR by 24 hr creatinine clearance was compared to eGFR by Wright, Cockcroft-Gault (CG), CKD-EPI, MDRD and CT-determined LBM (eGFR = [Muscle Surface Area X 42]/CR). Simulated carboplatin dosing with each eGFR was then compared retrospectively in 100 Non-Small Cell Lung Cancer (NSCLC) patients for accuracy. Results: MDRD, CG, and Wright equations correlated variably with mGFR (R2 0.47, 0.57, and 0.69 respectively). Conversely, mGFR strongly correlated with LBM eGFR (R2 0.84). The Table compares eGFR calculations with mean residual error. In simulated carboplatin dosing of 100 stage IV NSCLC patients using LBM and CG eGFR, the mean residual error of the CG-determined carboplatin dose was 10% (0.5% min, max 39.7%, median 9.3%), assuming the LBM eGFR was better at estimating eGFR. This means that in approximately half of patients, carboplatin dose may be incorrect by CG if the new LBM eGFR method is truly more accurate. Conclusions: We propose a new formula for eGFR in cancer patients that appears superior to current formulas and may have implications for chemotherapy efficacy and toxicity. Studies to validate this formula are under way. [Table: see text]
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