The solubility of drugs remains one of the most challenging aspects of formulation development. There are numerous ways to improve the solubility of drugs amongst which the most promising strategy is solid dispersion. Different ratios of sulfathiazole: PVP-K29/32: sodium lauryl sulfate (SLS) were prepared (1:1:0.1, 1:1:0.5, 1:1:1) and various methods were employed to characterize the prepared solid dispersions, namely modulated differential scanning calorimeter, X-ray powder diffraction, Fourier Transformed Infrared Spectroscopy and dissolution studies. Lack of crystallinity was observed in internal and external systems suggesting a loss of crystallinity, whereas the physical mixtures showed a characteristic peak of sulfathiazole. In vitro dissolution results clearly showed that the incorporation of a relatively small amount of surfactants (5, 20 or 33% w/w) into a solid dispersion can improve its dissolution rates compared to binary solid dispersion (SD) alone and pure sulfathiazole. In all ratios solid dispersion internal shows a higher dissolution rate compared to a physical mixture and solid dispersion external which suggests that the way that the surfactant is incorporated into the solid dispersion plays an important role in changing the solubility of a drug. The solubilization mechanism is mainly responsible for this higher dissolution rate when we incorporate the SLS in SD.
We report the first successful use of metalorganic chemical vapor deposition (MOCVD) in the fabrication of ferromagnetic oxide thin films. A substituted acetylacetonate barium complex has been used with ferrocene in a horizontal hot wall MOCVD system to deposit both polycrystalline and c-axis preferred films of BaFe12O19. These films were examined for crystallinity, morphology, composition, and magnetic properties. Their magnetic properties were found to be consistent with films prepared by other techniques.
Formation of solid dispersion also known as high energy solids is one of the most successful concepts to improve dissolution profile of poorly water-soluble drugs. Use of surfactants in formulation is one of the methods to increase solubility profile. In this research, we have used model drug, a weak acid (indomethacin) together with polymer (PVP) and anionic surfactant (sodium lauryl sulfate (SLS)) in different concentrations to study the effect of incorporation of SLS in solid dispersion. Three ratios and control were prepared. Physical characterization was performed using modulated differential scanning calorimetry (MDSC), X-ray diffraction (XRD) and Fourier transform infrared (FTIR) spectroscopy. Critical micelle concentration (CMC) measurements were conducted to see the effect of SLS on dissolution media. Dissolution studies were performed in hydrochloric acid buffer (pH 1.2 buffer), purified water and phosphate buffer (pH 7.4), respectively. Interestingly, depending upon addition of SLS into the system, release profiles were changed. SLS incorporated internally in a solid dispersion gave the highest release.
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