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Research Articles |
Dosing methods proposed by Matzke et al., Moellering et al., and Lake and Peterson were used to predict initial doses of vancomycin for serum concentration simulation using a two-compartment open model. Previously reported pharmacokinetic data from 25 of 28 patients were used to simulate steady-state serum vancomycin concentrations for doses derived from the three methods. The Matzke method failed to provide simulated one-hour postinfusion levels less than 30 micrograms/mL in 48 percent and troughs greater than 5 micrograms/mL in more than 88 percent of the patients. The Moellering method succeeded in achieving this goal in 96 percent of the simulated one-hour levels, and in 72 percent of the troughs when a six-hour dosing interval was selected. For the 8 mg/kg Lake-Peterson doses, one-hour levels greater than 30 micrograms/mL occurred in 28 percent of the simulations, and for the 10 mg/kg doses this increased to 40 percent. The 8 mg/kg doses resulted in trough simulations less than 5 micrograms/mL in 28 percent and the 10 mg/kg reduced this to only 20 percent. These simulations indicated that the Moellering nomogram with the six-hour dosing interval was the most successful method for initial dose selection, but early serum concentration monitoring and adjustment of initial empirical and nomogram-derived doses is necessary to assure safe and effective vancomycin serum concentrations.
This article has been cited by other articles:
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  J. E. Murphy, D. E. Gillespie, and C. V. Bateman Predictability of vancomycin trough concentrations using seven approaches for estimating pharmacokinetic parameters Am. J. Health Syst. Pharm., December 1, 2006; 63(23): 2365 - 2370. [Abstract] [Full Text] [PDF]
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 R. G. Smith Vancomycin: An Overview for the Podiatric Physician J Am Podiatr Med Assoc, July 1, 2004; 94(4): 389 - 394. [Abstract] [Full Text] [PDF]
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