Preparation, structural analysis, and properties of tenoxicam cocrystals.

Cocrystals of tenoxicam, a non-steroidal anti-inflammatory drug, are screened, prepared, and characterized in this study. Nine tenoxicam cocrystals were identified using solvent-drop grinding (SDG) techniques. Structural characterization was performed using powder X-ray diffraction (PXRD), differential scanning calorimetry, and multinuclear solid-state NMR (SSNMR).

Preparation and structural characterization of amorphous spray-dried dispersions of tenoxicam with enhanced dissolution.

Tenoxicam is a poorly soluble nonsteroidal anti-inflammatory drug. In this work, the solubility of tenoxicam is enhanced using amorphous spray-dried dispersions (SDDs) prepared using two molar equivalents of l-arginine and optionally with 10%-50% (w/w) polyvinylpyrrolidone (PVP). When added to the dispersions, PVP is shown to improve physical properties and also assists in maintaining supersaturation in solution.

Solubility and partitioning of carbamazepine in a two-phase supercritical carbon dioxide/polyvinylpyrrolidone system.

Supercritical carbon dioxide (scCO(2)) processing of drug/polymer mixtures is an environmentally friendly means of creating an impregnated polymeric carrier to enhance the aqueous dissolution rate of drugs that exhibit poor water solubility or are thermally labile. However, the role of drug solubilization and its interaction with the polymer during scCO(2) processing on the extent and rate of dissolution has been ambiguous. In this study, we examine the rate of dissolution of carbamazepine (CBZ), a hydrophobic drug for treating epilepsy, in scCO(2) (90-200bar, 35°C and 45°C) and its partitioning into polyvinylpyrrolidone (PVP, 10 and 29K MW) using in situ UV-vis spectroscopy.

Effect of n-scCO(2) on crystalline to amorphous conversion of carbamazepine.

A number of studies have been carried out to investigate the crystalline to amorphous conversion of carbamazepine (CBZ) using solid dispersion techniques. In this study we have tried to achieve conversion using a novel technique combining near-supercritical carbon dioxide (n-scCO(2)) and pharmaceutically acceptable polymers (Na CMC and PVP) of varying molecular weights. Physical mixtures were prepared in two identical sets, one exposed to n-scCO(2) treatment and other was untreated.

Design and process aspects of laboratory scale SCF particle formation systems.

Consistent production of solid drug materials of desired particle and crystallographic morphologies under cGMP conditions is a frequent challenge to pharmaceutical researchers. Supercritical fluid (SCF) technology gained significant attention in pharmaceutical research by not only showing a promise in this regard but also accommodating the principles of green chemistry. Given that this technology attained commercialization in coffee decaffeination and in the extraction of hops and other essential oils, a majority of the off-the-shelf SCF instrumentation is designed for extraction purposes.

Crystal doping aided by rapid expansion of supercritical solutions.

The purpose of this study was to test the utility of rapid expansion of supercritical solution (RESS) based cocrystallizations in inducing polymorph conversion and crystal disruption of chlorpropamide (CPD). CPD crystals were recrystallized by the RESS process utilizing supercritical carbon dioxide as the solvent. The supercritical region investigated for solute extraction ranged from 45 to 100 degrees C and 2000 to 8000 psi.

Transdermal delivery of nicardipine: an approach to in vitro permeation enhancement.

Nicardipine hydrochloride (NC-HCl), a calcium channel blocker for the treatment of chronic stable angina and hypertension, seems to be a potential therapeutic transdermal system candidate, mainly due to its low dose, short half-life, and high first-pass metabolism. The objective of the present study was to evaluate its flux and elucidate mechanistic effects of formulation components on transdermal permeation of the drug through the skin. Solubility of NC-HCl in different solvent systems was determined using a validated HPLC method.

Formulation and optimization of a sustained-release tablet of ketorolac tromethamine.

The objective of our study was to formulate a sustained-release tablet of Ketorolac tromethamine, which is a nonsteroidal anti-inflammatory agent. A 2(3) full factorial design (8 runs) was selected. The variables studied were the amount of drug (30 and 40 mg), ratio of hydroxypropyl methylcellulose (HPMC)/sodium carboxymethylcellulose (NaCMC) (240/40 and 140/140 mg), and amount of ethylcellulose (140 and 180 mg).