Evaluation of the protective effects of kolaviron on Kolanut-induced oxidative stress in developing rat brain

The brain is exposed throughout life to oxidative stress, and certain diseases of the brain and nervous system are thought to involve free radical processes and oxidative damage. This study is aimed at evaluating the effect of kolaviron on kolanut-induced oxidative stress in developing rat brain. Twenty-five adult pregnant Wistar rats weighing between 160 and 180g were used for the experiment. They were randomly divided into five groups of five animals each. The animals were fed with standard diets of mice cubes and water provided ad libitum. The control rats received water and cornoil, while the experimental animals received 200 mg/kg body weight of kolanut (kn), 200 mg/kg of kolaviron (kv), and 200 mg/kg body weight of vitamin E which served as a standard antioxidant with cornoil as vehicle orally in pre- and post-natal life. After birth, gross morphometry and behavioural changes of the pups of days 1, 7, 14, 21 and 28 postpartum were evaluated. Blood samples were collected from pups of day 21 for hematological, liver and renal function analyses, while the brains of pups of day 21 postpartum were preserved in phosphate buffer at a temperature of 4oC and pH 7.4 for biochemical analysis. There were significant alterations in the gross morphometry and behavioural parameters studied in the treated animals compared with the control at p< 0.05. There were elevated levels of RBC, WBC and platelets in the treated group compared with the control at p< 0.05. However, no significant change was observed in the PCV, Hb, liver and renal function parameters studied at p>0.05. A non-significant increase in levels of malondialdehyde, MDA, a bye-product of lipid peroxidation in the kolanut group was observed. However, administration of kolaviron and vitamin E non-significantly (p>0.05) reversed these changes. In conclusion, maternal consumption of kolanut induced mild oxidative stress and the administration of kolaviron and vitamin E decreased the rate at which kolanut induced oxidative stress in developing rat brain.

Dissolution rate enhancement of repaglinide by solid dispersion

Purpose: To enhance the solubility and dissolution rate of the antidiabetic drug repaglinide by solid dispersion (SD) technique Method: The solid dispersion of repaglinide was prepared by solvent evaporation method using the hydrophilic carrier, polyethylene glycol 4000 (PEG 4000) in three drug:PEG 4000 ratios (1:1, 1:3, 1:5). For comparison, physical mixtures of repaglinide and PEG 4000 in the same ratios were also prepared. The formulations were characterized by Fourier transformed infrared spectroscopy (FTIR), x-ray diffractometry (XRD) and differential scanning colorimetry (DSC). Phase solubility study of pure repaglinide, physical mixture and solid dispersion was performed in distilled water. Dissolution studies were carried out in pH 7.4 phosphate buffer. Results: DSC and XRD results indicate that repaglinide exists in amorphous form in solid dispersion. FT-IR analysis demonstrated the presence of intermolecular hydrogen bonding between repaglinide and PEG 4000 in the solid dispersion. The solubility of pure repaglinide was enhanced from 22.5± 5.0 to 235.5± 5.0 µg/mL in distilled water at 37 0C. Rapid burst release (80 - 86 %) from the solid dispersion formulations was observed within 15 min. Conclusion: The solubility and dissolution rate of repaglinide are enhanced by formulating SDs of repaglinide with PEG 4000. This will likely lead to increase in bioavailability which would be beneficial for better glucose control in diabetic patients.