From these assessments it can be
assumed that the structures are reliable. The study sorted only two qualified protein homology models out of the total five proteins due to the lack of high similarity template sequence alignments. SWISS-MODEL server was fast to use and helped in modeling 2 reliable proteins with stereo chemical properties. It can be assumed from the ERRAT and RAMPAGE scores of the structures that the homology structures of prohibitin 2 and CDGSH iron–sulfur domain-containing protein 2 of S. tropicalis were satisfactorily reliable and may be beneficial in further studies on different aspects of biological studies. All authors have none to declare. “
“Glibenclamide is an oral Antidiabetic agent which is widely used in the management of non-insulin dependent diabetes mellitus (type II). Glibenclamide is a second generation sulphonyl urea which is more potent than PFI-2 ic50 the first generation drugs in this class. Glibenclamide posses marked insulinaemic find more action and may work when other diabetic agents fails. It does not cross placenta and have been safely used in pregnancy i.e. gestational diabetes mellitus (GDM) without any adverse effect to the foetus. Its biological half life is 4–6 h. Due to its low biological half life (5 h), it requires frequent administration. In order
to reduce the dosing frequency and to improve patient compliance, controlled/sustained release dosage forms are required. In the present investigation, Edoxaban an attempt
has been made to formulate controlled/sustained release Glibenclamide microparticles by using Cellulose Acetate as rate retardant polymer. Glibenclamide was obtained as gift sample from Medley Pharmaceuticals Ltd., Daman Unit, Andheri East, Mumbai, India. Cellulose Acetate (Natco Pharma; Hyderabad, India), Acetone, liquid paraffin, tween 80, span 80 (Loba chemie Pvt. Ltd. Mumbai, India) and the chemical reagents used were of analytical grade. The microparticles were prepared by emulsion solvent evaporation technique.5 Glibenclamide microparticles were formulated by varying the drug and polymer ratios and by varying the surfactants. Weighed amount of drug and polymer were dissolved in 10 ml of acetone. The organic solution was then slowly added to 100 ml of liquid paraffin containing 1% surfactant with constant stirring for 1 h. The resulting microparticles were separated by filtration and washed with petroleum ether. The microparticles finally air dried over a period of 12 h and stored in a dessicator. The pure drug and optimized formulations were subjected for FTIR analysis. The samples were scanned over a range of 4000–400 cm−1 using Fourier transformer infrared spectrophotometer.6 Spectra’s were analyzed for drug polymer interactions. The pure drug and optimized formulation were subjected to differential scanning calorimeter equipped with an intra cooler (NETZSCH, Japan.). Indium/zinc standards were used to calibrate the DSC temperature and enthalpy scale.