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Hydrophobic ion pairing of isoniazid using a prodrug approach.

Journal of pharmaceutical sciences (2002-07-13)
Huiyu Zhou, Corinne Lengsfeld, David J Claffey, James A Ruth, Brooks Hybertson, Theodore W Randolph, Ka-Yun Ng, Mark C Manning
RESUMEN

Inhalation therapy for infectious lung diseases, such as tuberculosis, is currently being explored, with microspheres being used to target alveolar macrophages. One method of drug encapsulation into polymeric microspheres to form hydrophobic ion-paired (HIP) complexes, and then coprecipitate the complex and polymer using supercritical fluid methodology. For the potent antituberculosis drug, isoniazid (isonicotinic acid hydrazide, INH), to be used in this fashion, it was modified into an ionizable form suitable for HIP. The charged prodrug, sodium isoniazid methanesulfonate (Na-INHMS), was then ion paired with hydrophobic cations, such as alkyltrimethylammonium or tetraalkylammonium. The logarithms of the apparent partition coefficients (log P') of various HIP complexes of INHMS display a roughly linear relationship with the numbers of carbon atoms in the organic counterions. The water solubility of the tetraheptylammonium-INHMS complex is about 220-fold lower than that of Na-INHMS, while the solubility in dichloromethane exceeds 10 mg/mL, which is sufficient for microencapsulation of the drug into poly(lactide) microspheres. The actual logarithm of the dichloromethane/water partition coefficient (log P) for tetraheptylammonium-INHMS is 1.55, compared to a value of - 1.8 for the sodium salt of INHMS. The dissolution kinetics of the tetraheptylammonium-INHMS complex in 0.9% aqueous solutions of NaCl was also investigated. Dissolution of tetraheptylammonium-INHMS exhibited a first-order time constant of about 0.28 min(-1), followed by a slower reverse ion exchange process to form Na-INHMS. The half-life of this HIP complex is on the order of 30 min, making the enhanced transport of the drug across biological barriers possible. This work represents the first use of a prodrug approach to introduce functionality that would allow HIP complex formation for a neutral molecule.

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Sigma-Aldrich
Tetrahexylammonium bromide, 99%
Sigma-Aldrich
Tetrahexylammonium hydrogensulfate, ≥98.0% (T)
Supelco
Tetrahexylammonium hydrogensulfate, suitable for ion pair chromatography, LiChropur, ≥99.0% (T)
Sigma-Aldrich
Tetrahexylammonium hydroxide solution, ~40% in H2O (T)
Sigma-Aldrich
Tetrahexylammonium chloride, 96%
Supelco
Tetrahexylammonium bromide, suitable for ion pair chromatography, LiChropur, ≥99.0% (AT)