Design, development and evaluation of immediate release gliclazide tablets

The aim of the current study was the design, development and optimization of oral immediate release solid dosage forms of gliclazide tablets, intended for rapid action within 30 min, formulated and optimized by in vitro drug release method comparing with reference tablet Diamicron (Servier Lab.). For fast breakdown and rapid dissolution of tablets three different disintegrants (sodium starch glycolate, kollidone CL, and dried maize starch) were used with same percentage (2 %) in the formulations; sodium starch glycolate provide very fast release of gliclazide from tablets in pH 7.4. Two different compression methods, direct compression and wet granulation, were employed in the study. The in vitro drug release profile was better for directly compressed gliclazide tablets, but the flow properties of gliclazide were very poor, which causes high weight variation. Wet granulation method provided tablets of good physical parameters: two types of tablets with different hardness (8-10 kg/cm2 and 5-7 kg/cm2 ) were prepared to observe the effect of compressional forces on drug dissolution and the later one exhibits short disintegration time and rapid dissolution of gliclazide. Friability and weight variation were found within the acceptable range. Incorporation of anionic surfactant in combination with sodium starch glycolate or kollidone CL in the formulation the dissolution rate. In comparison with reference tablet, formulation containing 2 % sodium starch glycolate and 1 % sodium lauryl sulphate with other excipients as lactose, microcrystalline cellulose, povidone K-30, Mg stearate and colloidal silicon dioxide provide better dissolution. Shelf life of the formulated tablets were determined by utilizing stress condition (40 °C and 75 % Relative humidity for 3 months) and found more than 2.5 year in room condition.Colegio de Farmacéuticos de la Provincia de Buenos Aire

Design, development and evaluation of immediate release gliclazide tablets

The aim of the current study was the design, development and optimization of oral immediate release solid dosage forms of gliclazide tablets, intended for rapid action within 30 min, formulated and optimized by in vitro drug release method comparing with reference tablet Diamicron (Servier Lab.). For fast breakdown and rapid dissolution of tablets three different disintegrants (sodium starch glycolate, kollidone CL, and dried maize starch) were used with same percentage (2 %) in the formulations; sodium starch glycolate provide very fast release of gliclazide from tablets in pH 7.4. Two different compression methods, direct compression and wet granulation, were employed in the study. The in vitro drug release profile was better for directly compressed gliclazide tablets, but the flow properties of gliclazide were very poor, which causes high weight variation. Wet granulation method provided tablets of good physical parameters: two types of tablets with different hardness (8-10 kg/cm2 and 5-7 kg/cm2 ) were prepared to observe the effect of compressional forces on drug dissolution and the later one exhibits short disintegration time and rapid dissolution of gliclazide. Friability and weight variation were found within the acceptable range. Incorporation of anionic surfactant in combination with sodium starch glycolate or kollidone CL in the formulation the dissolution rate. In comparison with reference tablet, formulation containing 2 % sodium starch glycolate and 1 % sodium lauryl sulphate with other excipients as lactose, microcrystalline cellulose, povidone K-30, Mg stearate and colloidal silicon dioxide provide better dissolution. Shelf life of the formulated tablets were determined by utilizing stress condition (40 °C and 75 % Relative humidity for 3 months) and found more than 2.5 year in room condition.Colegio de Farmacéuticos de la Provincia de Buenos Aire

Design, development and evaluation of immediate release gliclazide tablets

The aim of the current study was the design, development and optimization of oral immediate release solid dosage forms of gliclazide tablets, intended for rapid action within 30 min, formulated and optimized by in vitro drug release method comparing with reference tablet Diamicron (Servier Lab.). For fast breakdown and rapid dissolution of tablets three different disintegrants (sodium starch glycolate, kollidone CL, and dried maize starch) were used with same percentage (2 %) in the formulations; sodium starch glycolate provide very fast release of gliclazide from tablets in pH 7.4. Two different compression methods, direct compression and wet granulation, were employed in the study. The in vitro drug release profile was better for directly compressed gliclazide tablets, but the flow properties of gliclazide were very poor, which causes high weight variation. Wet granulation method provided tablets of good physical parameters: two types of tablets with different hardness (8-10 kg/cm2 and 5-7 kg/cm2 ) were prepared to observe the effect of compressional forces on drug dissolution and the later one exhibits short disintegration time and rapid dissolution of gliclazide. Friability and weight variation were found within the acceptable range. Incorporation of anionic surfactant in combination with sodium starch glycolate or kollidone CL in the formulation the dissolution rate. In comparison with reference tablet, formulation containing 2 % sodium starch glycolate and 1 % sodium lauryl sulphate with other excipients as lactose, microcrystalline cellulose, povidone K-30, Mg stearate and colloidal silicon dioxide provide better dissolution. Shelf life of the formulated tablets were determined by utilizing stress condition (40 °C and 75 % Relative humidity for 3 months) and found more than 2.5 year in room condition.Colegio de Farmacéuticos de la Provincia de Buenos Aire

Development and validation of a simple UV spectrophotometric method for the determination of levofloxacin both in bulk and marketed dosage formulations

A rapid, specific and economic UV spectrophotometric method has been developed using a solvent composed of water:methanol:acetonitrile (9:0.5:0.5) to determine the levofloxacin content in bulk and pharmaceutical dosage formulations. At a pre-determined λmax of 292 nm, it was proved linear in the range of 1.0â12.0 μg/mL, and exhibited good correlation coefficient (R2=0.9998) and excellent mean recovery (99.00â100.07%). This method was successfully applied to the determination of levofloxacin content in five marketed brands from Bangladesh and the results were in good agreement with the label claims. The method was validated statistically and by recovery studies for linearity, precision, repeatability, and reproducibility. The obtained results proved that the method can be employed for the routine analysis of levofloxacin in bulks as well as in the commercial formulations. Keywords: Fluoroquinolone, Levofloxacin, UV spectrophotometric method, Validatio

The leaves of Crataeva nurvala Buch-Ham. modulate locomotor and anxiety behaviors possibly through GABAergic system

BackgroundCrataeva nurvala Buch-Hum is an indigenous herb, extensively used in traditional medicines of the South Asian countries to treat inflammation, rheumatic fever, gastric irritation, and constipation. Despite this wide range of uses, very little information is known regarding its effects on the central nervous system (CNS). Therefore, this study evaluated the neuropharmacological properties of methanolic extract of Crataeva nurvala leaves (MECN) using a number of behavioral models in animals. This study also identified potentially active phytochemicals in MECN.MethodsFollowing MECN administration (at 50, 100 and 200mg/kg; b.w.) the animals (male Swiss albino mice) were employed in hole-cross test (HCT), open field test (OFT), and rota-rod test (RRT) to evaluate sedative properties, where anxiolytic activities were investigated using elevated plus maze (EPM), light dark box (LDB), and marble burying test (MBT). The involvement of GABAergic system was evaluated using thiopental sodium (TS)-induced sleeping time determination test. Moreover, colorimetric phytochemical tests as well as GC/MS-MS were also conducted to define the phytochemical constituents of MECN.ResultsMECN possesses sedative properties indicated through the dose-dependent inhibition of locomotor activities of the animals in HCT and OFT and motor coordination in RRT. MECN also exhibited prominent anxiolytic properties through decreased burying behavior in MBT, increased time spent and transitions in open arm of EPM, and increased time spent in light compartment of LDB. In addition, the treatments potentiated TS-mediated hypnosis indicating a possible participation of GABAergic system in the observed sedative and anxiolytic activities. Phytochemical screening of MECN revealed 48 different compounds in it. We reviewed and conceive that the sedative and anxiolytic effects could be due to the presence of neuroactive compounds such as phytol, D-allose, and -Tocopherol in MECN.ConclusionThe present study showed that MECN possesses sedative and anxiolytic potential which could be beneficial in treatment of anxiety and insomnia associated with different psychological disorders

Facile extraction and characterization of calcium hydroxide from paper mill waste sludge of Bangladesh

Herein, paper mill waste sludge (PMS) from two different sources has been investigated to extract calcium hydroxide, Ca(OH)2 by a facile and inexpensive extraction process. PMS samples, collected from local paper mill plants of Bangladesh, were the main precursors wherein HCl and NaOH were used for chemical treatment. The as-synthesized products were analysed by a variety of characterization tools including X-ray diffraction (XRD), Fourier transform infrared (FTIR) spectroscopy, Raman spectroscopy, scanning electron microscopy (SEM) and energy dispersive X-ray (EDX) elemental analyses. Our studies confirm that the extracted product contains Ca(OH)2 as a major content, albeit it also includes CaCO3 phase owing to the inescapable carbonation process from the surrounding environment. The particle size of the synthesized products is in the range of 450–500 nm estimated from SEM micrographs. The crystallite domain size of the same estimated from XRD analyses and was found to be approximately 47 and 31 nm respectively for product-A and product-B considering major (101) Bragg peak of Ca(OH)2. The yield percentage of the isolated products is about 65% for samples collected from both sources