Partition coefficients characterization

When a dilute solution of a polymer (c << c ) is equilibrated with a porous medium, some polymer chains are partitioned to the pore channels. The partition coefficient K, defined as the ratio of the polymer concentration in the pore to the one in the exterior solution, decreases with increasing MW of the polymer (7). This size exclusion principle has been used successfully in SEC to characterize the MW distribution of polymer samples (8). 

Figure 3. Partition coefficient of freely jointed chains between the bulk solution and a cylindrical pore. The chains have different numbers of mass-points (n) and different bond lengths, and are characterized by the root-mean-square radius of gyration measured in units of the pore radius. See text for details.

A relative scale of the standard Gibbs energies of ion transfer or the standard ion transfer potentials can be established based on partition and solubility measurements. The partition eqnilibrium of the electrolyte can be characterized by a measnrable parameter, the partition coefficient P x-... 

Polar surface area (PSA) - defined simply as the part of a molecular surface that is polar - is probably, together with the octanol-water partition coefficient, one of the most important parameters used to characterize the transport properties of drugs. PSA has been shown to provide very good correlations with intestinal... 

To further analyze the relationships within descriptor space we performed a principle component analysis of the whole data matrix. Descriptors have been normalized before the analysis to have a mean of 0 and standard deviation of 1. The first two principal components explain 78% of variance within the data. The resultant loadings, which characterize contributions of the original descriptors to these principal components, are shown on Fig. 5.8. On the plot we can see that PSA, Hhed and Uhba are indeed closely grouped together. Calculated octanol-water partition coefficient CLOGP is located in the opposite corner of the property space. This analysis also demonstrates that CLOGP and PSA are the two parameters with... 

A CRO may also allow for the in-house introduction of specialized lipophilic scales by transferring routine measurements. While the octanol-water scale is widely applied, it may be advantageous to utilize alternative scales for specific QSAR models. Solvent systems such as alkane or chloroform and biomimetic stationary phases on HPLC columns have both been advocated. Seydel [65] recently reviewed the suitabihty of various systems to describe partitioning into membranes. Through several examples, he concludes that drug-membrane interaction as it relates to transport, distribution and efficacy cannot be well characterized by partition coefficients in bulk solvents alone, including octanol. However, octanol-water partition coefficients will persist in valuable databases and decades of QSAR studies. 

The pH-partition theory or nonionic permeability hypothesis was first described by Jacobs in 1940 [66]. According to this concept, only neutral, preferably nonpolar compounds are able to cross biological membranes. The transcellular permeability pH-profile is then essentially characterized by the membrane partition coefficient and the pKa of the compound. The simplest quantitative description of membrane permeation is given by ... 

In general, there is a positive correlation between hydrophobicity of solvents and nontoxicity for biocatalysts. The log P value was demonstrated to be a suitable parameter for characterization of solvent hydrophobicity (Table 1). Log P is the logarithm of the partition coefficient of a solvent in a water-l-octanol two-phase system [11,12,41,77]. Solvents with log P > A are very hydrophobic and generally nontoxic for biocatalysts. 

Centrifugal partition chromatography (CPC) has been used to characterize the partitioning behavior of hydrophilic molecules, where log D values as low as —3 can be obtained [371,377-379]. It is not as popular a method as it used to be, apparently due to instrumental challenges. Cyclic voltammetry (CV) has become the new method used to get access to very low log D values, with partition coefficients reported as low as —9.8 [261,269,362]. 

The quantities defined by Eqs. (2)—(7) plus Vs max, Vs min, and the positive and negative areas, A and, enable detailed characterization of the electrostatic potential on a molecular surface. Over the past ten years, we have shown that subsets of these quantities can be used to represent analytically a variety of liquid-, solid-, and solution-phase properties that depend on noncovalent interactions [14-17, 84] these include boiling points and critical constants, heats of vaporization, sublimation and fusion, solubilities and solvation energies, partition coefficients, diffusion constants, viscosities, surface tensions, and liquid and crystal densities. 

When 20 mg/kg of methimazole was administered i.p. or orally to rats, urinary methimazole glucuronides accounted for 36-48% of the dose in 24 hours. The only other urinary metabolite accounted for 10-20% and was not characterized. An additional 14-20% of methimazole was excreted unchanged in 24 hour urine. The bile contained methimazole glucuronide and two unidentified metabolites. One of which was the same as the unidentified urinary metabolites. Plasma proteins bound 5% of methimazole which had no affinity for any specific tissue. Methimazole had a much greater CHCI3/H2O partition coefficient and 1 0 solubility than did propylthiouracil. Between 77 and 95% of the methimazole was excreted in the urine and approximately 10% in the bile. Since fecal excretion was neglegible an enter-ohepatic circulation was present. The half life of urinary excretion was 5-7 hours regardless of the route of administration (15). 

The calculation of the partition coefficients for each sensor and for each volatile compound can then be used to estimate the value of the parameters (r, s, a, b, and 1) characterizing the way in which each sensing layer may interact with volatile compounds. 

It has been assumed implicitly in the preceding analyses that penetration of the substrate into the film and its exiting are fast, so that equilibrium is maintained and characterized by a partition coefficient. If this assumption is not valid, the rate of penetration (rate constant kfp) interferes with the current response, giving rise to an additional characteristic current, ifp = FSkfpCwhere kfp either represents a membrane penetration or... 

Fluorescence quenching studies in micellar systems provide quantitative information not only on the aggregation number but also on counterion binding and on the effect of additives on the micellization process. The solubilizing process (partition coefficients between the aqueous phase and the micellar pseudo-phase, entry and exit rates of solutes) can also be characterized by fluorescence quenching. 

Wohnsland and Faller ([175] performed measurements using a thin (9-10 //in) supported, phospholipid-free hexadecane layer. To validate their model, they used 32 well-characterized chemically diverse compounds. The permeability values obtained with their model could be correlated with known human absorption values if the maximum permeability obtained at different pH was taken into account. However, several disadvantages are related to this method. For hydrophilic drugs, hexadecane by itself has an increased barrier function in comparison with membranes. In addition, the hexadecane layers are not very stable, which makes this assay difficult to apply as a routine screening method. The advantage of this PAMPA setup is that it appears to be a satisfactory substitute for obtaining alkane-water partition coefficients, which are usually very difficult to measure directly, due to the poor solubility of drug molecules in alkanes. 

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