RESUMO
Background: Alzheimer's disease (AD) is the most prevalent type of dementia which has been affected to more the 44 million people globally. It is distinguished by gradually deteriorating memory and other cognitive abilities that precede dementia. Present treatment of AD mainly focuses on symptomatic slowing the evolution of the disease which is associated with numerous side effects such as dizziness, tiredness, nausea, vomiting, heart attack, and stroke etc. Henceforth; there is urgent need to identify the alternative treatment for management of AD. Herbal medicines have been used from long time to treat AD. One of such leading Phyto molecule is Naringin. It showed promising results against AD but suffers from poor bioavailability and require in high dose to cross the blood brain barrier. Objectives: The main objectives of proposed work are to increase the bioavailability of naringin in brain by developing Nano-suspension and preclinical evaluation of neuroprotective effect of Naringin Nano-suspension (NNS) against Scopolamine induced Alzheimer's disease in rats. Methods: The present study deals with the development, characterization of NNSand to evaluate neuroprotective effect of NNS. Nanoparticles of drug were formed by using PLGA polymer and optimized by using 32 factorial design. Optimized batch was further characterized by scanning electron microscopy (SEM) and X-ray diffraction (XRD). Further the effectiveness of NNS was preclinically investigated by performing AOTstudy as per OECD guideline 420. AD induced Albino Wistar Rats were treated with NNS orally for 14 days and then evaluated for parameters like Gross examination of brain, Relative brain weight determination, behavioural parameters, neuro-inflammatory parameters and immune-histology. Results: Optimization was carried out to study the effect of polymer concentration and number of HPH cycles on Particle size, Poly dispersity index (PDI) and % entrapment efficiency. Desirability search approach was used to select the optimized formulation. Based on the selection criteria, batch F6 having 357.6 ± 05 nm particle size, 0.168 ± 0.04 PDI and 91 ± 2% EE was selected as optimized batch. SEM analysis showed spherical morphology and XRD confirmed the molecular dispersion. Pre-treatment with NNS showed neuroprotective activity basedon results of behavioural studies, biochemical estimation, neuroinflammatory parameters and immunohistochemistry evaluations. Conclusion: As NNS showed significant neuroprotective and anti-neuro-inflammatory effect, this study opens up new ways to exploit Naringin for various therapeutic and restorative purposes.
RESUMO
OBJECTIVE: The objective of the present study was to evaluate the effect of bromocriptine on cardiovascular complications associated with type-2 diabetes mellitus (DM). MATERIALS AND METHODS: Metabolic syndrome or type 2 DM was induced by administration of fructose (66% solution, p.o.) in rats. Bromocriptine mesylate (10 mg/kg, i.p.) was given in fructose-treated rats for a period of 6 weeks after induction of diabetes. After drug treatment, the parameters such as body weight, food and water intake, serum glucose, triglycerides, cholesterol, insulin, and blood pressure (BP) were measured weekly and at the end of study. At the end of treatment, BP was determined by invasive method and vascular reactivity was tested with adrenaline (Adr), noradrenaline (NA), and phenylephrine (PE). Acetylcholine-induced vasorelaxation was tested on isolated rat aorta and histopathology of hearts was also done. RESULTS: Fructose-fed rats showed significant weight gain, hyperglycemia, hyperlipidemia, hyperinsulinemia, and rise of BP. Administration of bromocriptine at a dose 10 mg/kg, i.p. significantly decreased weight gain, serum glucose, triglyceride, cholesterol and insulin levels in rats fed on fructose. Bromocriptine also significantly reduced elevated BP in fructose-fed hypertensive rats. Chronic treatment with bromocriptine significantly improved the relaxant response to acetylcholine on fructose-fed hyperinsulinemic rat aorta and also reduced the pressor response to Adr, NA, and PE. Bromocriptine also showed a protection from hypertrophy and degenerative changes in myocardium. CONCLUSION: Bromocriptine has beneficial effect in reduction of cardiovascular complications associated with metabolic syndrome.