PT - JOURNAL ARTICLE AU - Keith W. Ward AU - Brian R. Smith TI - A COMPREHENSIVE QUANTITATIVE AND QUALITATIVE EVALUATION OF EXTRAPOLATION OF INTRAVENOUS PHARMACOKINETIC PARAMETERS FROM RAT, DOG, AND MONKEY TO HUMANS. II. VOLUME OF DISTRIBUTION AND MEAN RESIDENCE TIME AID - 10.1124/dmd.32.6.612 DP - 2004 Jun 01 TA - Drug Metabolism and Disposition PG - 612--619 VI - 32 IP - 6 4099 - http://dmd.aspetjournals.org/content/32/6/612.short 4100 - http://dmd.aspetjournals.org/content/32/6/612.full SO - Drug Metab Dispos2004 Jun 01; 32 AB - Our laboratory is engaged in an ongoing analysis of a 103-compound data set containing reliable intravenous pharmacokinetic parameters in the rat, dog, monkey, and human, and we have previously reported our findings regarding extrapolation of clearance. In this article, we report on our findings regarding volume of distribution and mean residence time. Various allometric and nonallometric methods were used to predict human volume of distribution based on preclinical pharmacokinetic data; clearance and volume of distribution values generated by various means were then used to estimate mean residence time. From both a quantitative and qualitative perspective, estimating human volume and mean residence time based on monkey data alone was the most accurate approach evaluated. For volume, estimation based on monkey data alone was quantitatively the least biased of all approaches evaluated. Additionally, prediction of mean residence time based on clearance and volume from the monkey was the only extrapolation method that exhibited a positive, rather than negative, bias. None of the allometric scaling approaches investigated afforded optimal predictivity for either volume or mean residence time, and neither the correlation coefficient nor the allometric exponent allowed a prospective estimation of predictive success or failure. These observations regarding volume and mean residence time confirm our earlier results with clearance, and further confirm the value of the monkey as a species for pharmacokinetic lead optimization. The American Society for Pharmacology and Experimental Therapeutics