7 research outputs found
Evaluation of physico-mechanical properties of carvedilol-cyclodextrin agglomerates obtained by emulsion solvent diffusion method
Spherical crystallization (SC) is a promising alternative for improiving micromeritic properties and dissolution rate of active pharmaceutical ingredients. In the present work spherical agglomerates of carvedilol (CAR) were prepared by emulsion solvent diffusion (ESD) method using acetone, water and dichloromethane as good solvent, poor solvent and bridging liquid, respectively. Agglomerates were prepared by using β-cyclodextrin and hydroxy propyl-β-cyclodextrin as a hydrophilic polymers. The agglomerates were characterized by fourier transform infrared spectroscopy (FTIR), differential scanning calorimetry (DSC), powder X-ray diffraction (PXRD) and scanning electron microscopy (SEM) and were evaluated for flowability, solubility and drug release. CAR agglomerates exhibited significantly improved micromeritic properties, solubility as well as dissolution behaviors in comparison with pure CAR crystals. Differential scanning calorimetric and powder X-ray diffraction studies confirm that formulation process altered the crystalline nature of carvedilol.Colegio de Farmacéuticos de la Provincia de Buenos Aire
Spherically agglomerated solid dispersions of valsartan to improve solubility, dissolution rate and micromeritic properties
The objective of the present work was to enhance the solubility and dissolution rate of valsartan (VAL) a poorly water soluble antihypertensive, by spherically agglomerated solid dispersions using methanol, water and dichloromethane as good solvent, poor solvent and bridging liquid, respectively. The hydrophilic polymers like polyvinyl pyrrolidone, Hydroxypropyl β-cyclodextrin, Hydroxypropyl methylcellulose were used in agglomeration process. The pure drug (VAL) and its agglomerates with different polymers were characterize by differential scanning calorimetry (DSC), X-ray diffraction (XRD), IR spectroscopic studies and scanning electron microscopy (SEM). The DSC results indicated that decrease in melting enthalpy related to disorder in the crystalline content. XRD studies also showed changes in crystallanity, IR spectroscopy revealed that there were no chemical changes in the recrystallized agglomerates. The spherically agglomerated solid dispersions with different polymers exhibited marked increase in solubility, dissolution rate and micromeritic properties (bulk density, flow property, compactability) compared with VAL. The SEM studies showed that the agglomerates posseeses a good spherical shape.Keywords: Valsartan; Spherical agglomeration; Solid dispersion; Solubility; Dissolution rate; Micromeritic properties
Evaluation of physico-mechanical properties of carvedilol-cyclodextrin agglomerates obtained by emulsion solvent diffusion method
Spherical crystallization (SC) is a promising alternative for improiving micromeritic properties and dissolution rate of active pharmaceutical ingredients. In the present work spherical agglomerates of carvedilol (CAR) were prepared by emulsion solvent diffusion (ESD) method using acetone, water and dichloromethane as good solvent, poor solvent and bridging liquid, respectively. Agglomerates were prepared by using β-cyclodextrin and hydroxy propyl-β-cyclodextrin as a hydrophilic polymers. The agglomerates were characterized by fourier transform infrared spectroscopy (FTIR), differential scanning calorimetry (DSC), powder X-ray diffraction (PXRD) and scanning electron microscopy (SEM) and were evaluated for flowability, solubility and drug release. CAR agglomerates exhibited significantly improved micromeritic properties, solubility as well as dissolution behaviors in comparison with pure CAR crystals. Differential scanning calorimetric and powder X-ray diffraction studies confirm that formulation process altered the crystalline nature of carvedilol.Colegio de Farmacéuticos de la Provincia de Buenos Aire
Spherically agglomerated solid dispersions of valsartan to improve solubility, dissolution rate and micromeritic properties
The objective of the present work was to enhance the solubility and dissolution rate of valsartan (VAL) a poorly water soluble antihypertensive, by spherically agglomerated solid dispersions using methanol, water and dichloromethane as good solvent, poor solvent and bridging liquid, respectively. The hydrophilic polymers like polyvinyl pyrrolidone, Hydroxypropyl β-cyclodextrin, Hydroxypropyl methylcellulose were used in agglomeration process. The pure drug (VAL) and its agglomerates with different polymers were characterize by differential scanning calorimetry (DSC), X-ray diffraction (XRD), IR spectroscopic studies and scanning electron microscopy (SEM). The DSC results indicated that decrease in melting enthalpy related to disorder in the crystalline content. XRD studies also showed changes in crystallanity, IR spectroscopy revealed that there were no chemical changes in the recrystallized agglomerates. The spherically agglomerated solid dispersions with different polymers exhibited marked increase in solubility, dissolution rate and micromeritic properties (bulk density, flow property, compactability) compared with VAL. The SEM studies showed that the agglomerates posseeses a good spherical shape.Keywords: Valsartan; Spherical agglomeration; Solid dispersion; Solubility; Dissolution rate; Micromeritic properties
Evaluation of physico-mechanical properties of carvedilol-cyclodextrin agglomerates obtained by emulsion solvent diffusion method
Spherical crystallization (SC) is a promising alternative for improiving micromeritic properties and dissolution rate of active pharmaceutical ingredients. In the present work spherical agglomerates of carvedilol (CAR) were prepared by emulsion solvent diffusion (ESD) method using acetone, water and dichloromethane as good solvent, poor solvent and bridging liquid, respectively. Agglomerates were prepared by using β-cyclodextrin and hydroxy propyl-β-cyclodextrin as a hydrophilic polymers. The agglomerates were characterized by fourier transform infrared spectroscopy (FTIR), differential scanning calorimetry (DSC), powder X-ray diffraction (PXRD) and scanning electron microscopy (SEM) and were evaluated for flowability, solubility and drug release. CAR agglomerates exhibited significantly improved micromeritic properties, solubility as well as dissolution behaviors in comparison with pure CAR crystals. Differential scanning calorimetric and powder X-ray diffraction studies confirm that formulation process altered the crystalline nature of carvedilol.Colegio de Farmacéuticos de la Provincia de Buenos Aire
Deer antlers- Traditional use and future perspectives
245-251Antlers are bony skeletal protuberances of
the skull, and consist mainly of the protein collagen and the mineral calcium
hydroxyapatite. Antlers occur in most species of the deer family (Cervidae) and
are grown and shed annually, typically only by males. Traditional medical
reports and clinical observations show that antler is biologically active to
cure various diseases. To make antler products acceptable as nutraceuticals and
functional foods, chemical and biological properties of velvet antlers have to
be clearly determined. Antlers are made of chemical components consisting of
sugars, fatty acids, amino acids, and nucleotides as essential molecules, which
become macromolecules such as polysaccharides, lipids, proteins and nucleic
acids, respectively. For their physicochemical properties, each of these
macromolecules is responsible for not only antler growth and development, but
also biomedical and nutraceuticals uses of antlers. Therefore, understanding
chemical and molecular characteristics of antlers is crucially important to
elucidate the clinical and medicinal efficacies of antlers. Hence, the review
highlights information about various species of deer, its farming, antler
preparation, antler composition, its traditional uses and scientific
substantiation to it, dose and its future scope