BACKGROUND: Discrepancies between the severity of toxicities reported in early clinical trials and recent clinical experience with vancomycin have led to confusion regarding the need for routine serum vancomycin level monitoring and discontinuation of vancomycin when toxicities occur. Therefore, the authors examined the incidence, outcomes, and predictive factors of vancomycin-associated toxicities in general oncology practice with the goal of developing clinically relevant prediction rules and guidelines. METHODS: All 742 consecutive cancer patients who received vancomycin at a comprehensive cancer center during a 3-month period were followed prospectively for the development and outcome of phlebitis, rash, ototoxicity, and nephrotoxicity. Logistic regression was used to derive a multiple variable model of the risk of nephrotoxicity. A clinical prediction rule, the Nephrotoxicity Risk Score, was developed from the risk model and validated prospectively. RESULTS: Phlebitis occurred in 3% of patients (95% confidence interval [95% CI], 2-4%), predominantly those with recently inserted central venous catheters. Rashes occurred in 11% of patients (95% CI, 9-13%); however, all but 4 patients also were receiving beta-lactam antibiotics. Clinical evidence of ototoxicity developed in 6% of patients (95% CI, 4-9%) who were receiving vancomycin plus other ototoxic agents and only 3% of patients (95% CI, 2-5%) not receiving other ototoxic agents (P = 0.08). Nephrotoxicity occurred in 17% of patients (95% CI, 15-20%). Logistic regression revealed that factors associated with an increased risk of nephrotoxicity included administration of other mild to moderate (P = 0.01) or severely nephrotoxic agents (P < 0.001) or an acute physiology and chronic health evaluation (APACHE) score > 40 (P = 0.002). Elevated serum vancomycin peak levels did not reliably predict subsequent nephrotoxicity. CONCLUSIONS: Vancomycin-associated toxicities usually are mild and self-limiting. Some patients are at a significantly higher risk of nephrotoxicity but the authors believe these individuals can be identified reliably with the Nephrotoxicity Risk Index using information available at vancomycin initiation. Further testing of the Nephrotoxicity Risk Index is ongoing.
BACKGROUND: Discrepancies between the severity of toxicities reported in early clinical trials and recent clinical experience with vancomycin have led to confusion regarding the need for routine serum vancomycin level monitoring and discontinuation of vancomycin when toxicities occur. Therefore, the authors examined the incidence, outcomes, and predictive factors of vancomycin-associated toxicities in general oncology practice with the goal of developing clinically relevant prediction rules and guidelines. METHODS: All 742 consecutive cancerpatients who received vancomycin at a comprehensive cancer center during a 3-month period were followed prospectively for the development and outcome of phlebitis, rash, ototoxicity, and nephrotoxicity. Logistic regression was used to derive a multiple variable model of the risk of nephrotoxicity. A clinical prediction rule, the Nephrotoxicity Risk Score, was developed from the risk model and validated prospectively. RESULTS:Phlebitis occurred in 3% of patients (95% confidence interval [95% CI], 2-4%), predominantly those with recently inserted central venous catheters. Rashes occurred in 11% of patients (95% CI, 9-13%); however, all but 4 patients also were receiving beta-lactam antibiotics. Clinical evidence of ototoxicity developed in 6% of patients (95% CI, 4-9%) who were receiving vancomycin plus other ototoxic agents and only 3% of patients (95% CI, 2-5%) not receiving other ototoxic agents (P = 0.08). Nephrotoxicity occurred in 17% of patients (95% CI, 15-20%). Logistic regression revealed that factors associated with an increased risk of nephrotoxicity included administration of other mild to moderate (P = 0.01) or severely nephrotoxic agents (P < 0.001) or an acute physiology and chronic health evaluation (APACHE) score > 40 (P = 0.002). Elevated serum vancomycin peak levels did not reliably predict subsequent nephrotoxicity. CONCLUSIONS:Vancomycin-associated toxicities usually are mild and self-limiting. Some patients are at a significantly higher risk of nephrotoxicity but the authors believe these individuals can be identified reliably with the Nephrotoxicity Risk Index using information available at vancomycin initiation. Further testing of the Nephrotoxicity Risk Index is ongoing.
Authors: Yan Chen; Xiao Yan Yang; Michael Zeckel; Chris Killian; Kenneth Hornbuckle; Arie Regev; Simon Voss Journal: Drug Saf Date: 2011-01-01 Impact factor: 5.606
Authors: Brandy Alexandra Wicklow; Malcolm Robert Ogborn; Ian William Gibson; Tom David Blydt-Hansen Journal: Pediatr Nephrol Date: 2006-05-24 Impact factor: 3.714
Authors: Stephen W Davies; Jimmy T Efird; Christopher A Guidry; Zachary C Dietch; Rhett N Willis; Puja M Shah; Sara A Hennessy; Robert G Sawyer Journal: Surg Infect (Larchmt) Date: 2015-09-01 Impact factor: 2.150