US EPA

1933123 

Journal Article 

Thermodynamic and Structural Aspects of Sulfonamide Crystals and Solutions 

Perlovich, GL; Tkachev, VV; Strakhova, NN; Kazachenko, VP; Volkova, TV; Surov, OV; Schaper, KJ; Raevsky, OA 

2009 

Yes 

Journal of Pharmaceutical Sciences
ISSN: 0022-3549
EISSN: 1520-6017 

John Wiley and Sons Inc. 

NEW YORK 

98 

12 

4738-4755 

English 

19408296 

10.1002/jps.21784 

WOS:000273085400024 

The crystal structures of three sulfonamides with the general structure 4-NH(2)-C(6)H(4)-SO(2)NH-C(6)H(4/3)-R (R = 4-Et; 4-OMe; 5-Cl-2-Me) have been determined by X-ray diffraction. On the basis of our previous data and the results obtained a comparative analysis of crystal properties was performed: molecular conformational states, packing architecture, and hydrogen bond networks using graph set notations. The thermodynamic aspects of the sulfonamide sublimation process have been studied by investigating the temperature dependence of vapor pressure using the transpiration method. A regression equation was derived describing the correlation between sublimation entropy terms and crystal density data calculated from X-ray diffraction results. Also correlations between sublimation Gibbs energies and melting points, on the one hand, and between sublimation enthalpies and fusion enthalpies at 298 K, on the other hand, were found. These dependencies give the opportunity to predict sublimation thermodynamic parameters by simple thermo-physical experiments (fusion characteristics). Solubility processes of the compounds in water, n-hexane, and n-octanol (as phases modeling various drug delivery pathways and different types of membranes) were investigated and corresponding thermodynamic functions were calculated as well. Thermodynamic characteristics of sulfonamide solvation were evaluated. For compounds with similar structures processes of transfer from one solvent to another one were studied by a diagram method combined with analysis of enthalpic and entropic terms. Distinguishing between enthalpy and entropy, as is possible through the present approach, leads to the insight that the contribution of these terms is different for different molecules (entropy- or enthalpy-determined). Thus, in contrast to interpretation of only the Gibbs energy of transfer, being extensively used for pharmaceuticals in the form of the partition coefficient (log P), the analysis of thermodynamic functions of the transfer process provides additional mechanistic information. This may be important for further evaluation of the physiological distribution of drug molecules and may provide a better understanding of biopharmaceutical properties of drugs. 

4-amino-N-(4-ethylphenyl)-benzene-sulfonamide; 4-amino-N-(4-methoxyphenyl)-benzene-sulfonamide; 4-amino-N-(5-chloro-2-methylphenyl)-benzene-sulfonamide; sublimation thermodynamics; solubility; solvation; crystal structure; transfer process