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Noncompartmental determination of the steady-state volume of distribution

โœ Scribed by Leslie Z. Benet; Renato L. Galeazzi

Publisher
John Wiley and Sons
Year
1979
Tongue
English
Weight
474 KB
Volume
68
Category
Article
ISSN
0022-3549

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โœฆ Synopsis

Melting

Point 0 1 2 R 2420 202-203O 19O-l9l0 lfin-Ifi2~ para-substituted phenyl and substituted alkyl moieties and the sum of AH, contributions of each functional group present in the R moiety in the ester. Some important AH, values used in our study are shown in Table I (2). A straightforward additivity rule was applied in calculating AHs contributions from the R group. For instance, for the p-benzamidophenyl ester of dinoprostone, the AHs contribution of the phenolic moiety is the sum of 2 X 10.0 for phenyl, 6.5 for >C=O, and 5.6 for -NH-, giving 32.1 kcal/mole.

The relationship between the melting points of 22 dinoprostone C1-esters and 25 dinoprost C1-esters and the (1) W.

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Noncompartmental determination of the mean residence time and steady-state volume of distribution during multiple dosing
โœ Haiyung Cheng; William J. Jusko ๐Ÿ“‚ Article ๐Ÿ“… 1991 ๐Ÿ› John Wiley and Sons ๐ŸŒ English โš– 233 KB ๐Ÿ‘ 1 views

Moment analysis has become widely used in recent years as a noncompartmental approach to the estimation of mean residence time (MRT) and steady-state volume of distribution (Vd,,) from single-dose data.1-5 In 1983, the method was first extended to the multiple-dosing situation by Bauer and Gibaldi.6