Relationship between partition coefficients and apparent volumes of distribution for basic drugs. II

New lidocaine ester derivatives with a prolonged anesthetic effect

In order to find a new long acting local anesthetic, methyl, ethyl, and butyl ester derivatives of lidocaine were synthesized in our laboratory. The topical anesthetic activity was studied with the effects on corneal reflex in rabbits, and the duration of action with those on the action potential of rabbit vagus nerve was studied in vitro. All drugs showed adequate topical anesthetic activities. The onset time to induce a complete blockage of the action potential in the excised vagus nerve was 97.1 +/- 6.3 s for lidocaine, 289.3 +/- 29.0 s for methyl ester, 186.3 +/- 18.4 s for ethyl ester, and 85.3 +/- 9.0 s for butyl ester. The mean duration of action, which was assessed as the time to recover from the complete block to 30% of control amplitude in a drug-free medium, was 32.5 +/- 3.1 min for lidocaine, 39.9 +/- 11.3 min for methyl ester, 68.2 +/- 4.2 min for ethyl ester, and 108.7 +/- 12.3 min for butyl ester. The differences in the duration of action between the ester derivatives and the original lidocaine were all statistically significant. The duration of action of all drugs studied paralleled with their protein binding capacities. These findings indicate the possibility that the ester derivatives studied, especially butyl ester, can be used as a long acting local anesthetic.

Relationships between the hepatic intrinsic clearance or blood cell-plasma partition coefficient in the rabbit and the lipophilicity of basic drugs

The relationships between drug lipophilicity and hepatic intrinsic clearance (CLint,h) or red blood cell-plasma partition coefficients (D) have been elucidated for ten highly lipophilic basic drugs with apparent octanol-water partition coefficients at pH 7.4 (Papp,oct) or 150 or above. The true octanol-water partition coefficients of the non-ionized drugs (Poct) were used to determine CLint,h and D for the unbound drugs (CLint,h,f and Df, respectively), and CLint,h,f and Df for the non-ionized and unbound drugs (CLint,h fu and Dfu, respectively). The total clearance values were determined at steady state by infusion studies of individual drugs in rabbits. There was better correlation between log Poct and log CLint,h,fu (r = 0.974) than between log Poct and log CLint,h,f (r = 0.864). The D values were calculated from the blood-plasma concentration ratio. There was a better correlation between log Poct and log Dfu (r = 0.944) than between log Poct and log Df (r = 0.612). The regression equations obtained were CLint,h,fu = 0.0875 x Poct1.338 and Dfu = 0.0108 x Poct0.970, respectively. These results show that the CLint,h and D of highly lipophilic basic drugs can be predicted from Poct by taking fu into consideration. By applying these parameters to a physiologically based pharmacokinetic model it might be possible to predict the pharmacokinetics of unknown basic drugs.

Influence of physicochemical parameters and perfusate flow rate on the distribution of solutes in the isolated perfused rat hindlimb determined by the impulse-response technique

The relationship between solute distribution, physicochemical properties, and tissue physiology was determined by the impulse-response (IR) technique and statistical moment analysis in the isolated perfused rat hindlimb. The concentration of bovine serum albumin (BSA; 2, 4.7, and 7%, w/v), perfusate flow rate (4 and 8 mL/min), and solute physicochemical properties (lipophilicity, P, fraction unbound to protein, fu; fraction ionized, fi; and molecular weight MW) were varied to better understand the underlying determinants of solute distribution. An apparent low availability was found for a number of the solutes as a consequence of tissue sequestration. This low availability precludes the estimation of an apparent volume of distribution (V) for these solutes. The V of solute and tissue (skin, fat, and muscle) blood flow increased with perfusion flow rate (p < 0.01). The unbound distribution volume (Vu) of basic solutes was significantly linear with respect to P. Multiple linear regression analysis showed that the distribution volume of solute in tissue was significantly related to fu (p < 0.01), but not improved by including relationships to P, MW, and fi. Data obtained with this IR technique yield results consistent with in vivo studies in terms of the importance of fu as a determinant of V. This work has shown that the estimations of solute V by the IR technique in a single-pass preparation are unreliable for solutes with a low availability due to apparent solute sequestration into tissue. The parameter V may also be affected by changes in the perfused limb physiology associated with the perfusion conditions used. The Vs for lidocaine and diazepam vary with fu in accordance with deductions based on the results of steady-state studies.

Verofylline pharmacokinetics in dietary-induced obese rats: role of fat mass and protein binding in determining volume of distribution

1. Verofylline, a lipophilic polysubstituted methylxanthine, was utilized to examine how severely altered body composition in obesity affects drug disposition; the role of fat-free mass, fat mass and protein binding in determining the volume of distribution (Vss) was investigated. Obesity was induced by feeding Sprague-Dawley rats for 8 months with a calorie-dense diet; the obese rats showed increases of 50% in total body mass and 150% in body fat. 2. Both the absolute Vss and the clearance (Cl) in the obese rats increased 2-fold over control. Since Cl and Vss increased similarly, the half-life of verofylline in obese rats did not change. 3. The increase of Cl in obese rats can be accounted for by metabolic function related to fat-free mass and decreased serum binding. Similarly, an increase in fraction unbound and in total body mass accounted for the increase in Vss. 4. Based on in vitro measurements of muscle and fat tissue uptake of verofylline, and the assumed body space (from tritium dilution method), the predicted values for Vss closely approximated those of observed values. The semi-physiological model proposed here appears adequate to relate changes of body composition and serum protein binding in obesity to Vss.

Relationships in the structure-tissue distribution of basic drugs in the rabbit

The relationship between the tissue-to-plasma partition coefficients (Kp) and drug lipophilicity was investigated using highly lipophilic drugs with apparent partition coefficients of 150 or above in an octanol-water system at pH 7.4. Ten clinically popular basic drugs with different dissociation coefficients (pKa) and lipophilicity were used. The Kp values were determined in nondisposing organs after the i.v. administration of individual drugs in rabbits. The free fraction in plasma and the blood-to-plasma concentration ratio were determined in vitro. Then the tissue-to-plasma ratios of nonionized and unbound drug concentrations (Kpfu) were calculated from Kpf (ratio of unbound drug). The true octanol-water partition coefficient of the nonionized drugs (P) was used to analyze the Kpf and Kpfu. In all tissues, log Kpfu was more highly correlated with log P than log Kpf.

Correlation between n-octanol/water partition coefficient and liquid chromatographic retention for caffeine and its metabolites, and some structure-pharmacokinetic considerations

A method to establish the correlation between the reverse phase high performance liquid chromatographic retention of caffeine and its metabolites and their n-octanol/water partition coefficients is described. The log (P) values were always below zero, ranging from -0.02 to -2.03. The capacity factor quadratically back-extrapolated to 100% water eluent (k'w) was used as the index of lipophilicity. The compounds examined gave a good correlation (r greater than 0.99) with log (k'w) if considered in separate series, depending on the substituent position. For a structure-pharmacokinetic relationship study, correlations were found between the partition coefficient and some pharmacokinetic parameters, suggesting that for drugs that are widely metabolized, any predictions of their disposition from physicochemical characteristics are hazardous.

Effects of different buffer species on partition coefficients of drugs used in quantitative structure-activity relationships

A study was conducted in which the same organic solvent, 1-octanol, and different buffer systems were used to obtain intercorrelations among log Pcorr values given by log P (octanol-water) = a log P (octanol-buffer) + b, where a and b are different constants for the different systems used. The range of a was 0.418-1.156 and that of b was -1.962-1.176 for the four buffer systems examined. Only with neutral drugs was the slope (a) close to 1.0 and the intercept (b) close to 0.0 for the three buffer systems studied. For acidic drugs, only 1-octanol-phosphate buffer gave a 1:1 correlation with 1-octanol-water partition coefficients. Acetate and bicarbonate buffer systems gave different correlations. For basic drugs, none of the three systems examined gave a 1:1 correlation with 1-octanol-water partition coefficients.