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  • Title: Neuro-protective potential of a vesicular system of a standardized extract of a new chemotype of Withania somnifera Dunal (NMITLI118RT+) against cerebral stroke in rats.
    Author: Ahmad H, Khandelwal K, Samuel SS, Tripathi S, Mitra K, Sangwan RS, Shukla R, Dwivedi AK.
    Journal: Drug Deliv; 2016 Sep; 23(7):2630-2641. PubMed ID: 26017242.
    Abstract:
    Withania somnifera Dunal is an Indian medicinal plant with significant pharmacological properties, such as adaptogenic, anti-inflammatory, anti-oxidant, anti-platelet, anti-hypertensive, hypoglycemic and hypolipidemic effects. Several chemotypes of W. somnifera include NMITLI-101, NMITLI-118 and NMITLI-128. The present work elaborates the optimization and development of a liposomal delivery system for efficient delivery of NMITLI118RT+ [a standardized ethanolic extract of a new chemotype of W. somnifera Dunal (NMITLI-118) roots] against cerebral stroke in rats. Liposomal systems were prepared using thin-film hydration method and characterized on the basis of size, zeta potential, physical stability, FT-IR, DSC-TGA analysis and surface morphological studies by TEM. NMITLI118RT+ and its formulations (NMITLI118RT+LF) were evaluated for biological activity utilizing middle cerebral artery occlusion model in rats. The Z average of the developed liposomal formulation was about 142.6 ± 0.09 nm with a zeta potential of -31.20 ± 1.0 mV. Results of TEM revealed spherical particles in the range of 200 nm. The entrapment efficiency was found to be 94.603 ± 2%. The formulation was found to be physically stable over a 3-week period. Results were suggestive of the fact that both NMITLI118RT+ and its delivery system possess significant neuroprotective activity in cerebral ischemia. The liposomal system largely exhibits better performance over NMITLI118RT+ precisely in the post-treatment group. The present studies could elucidate the successful development of a delivery system for NMITLI118RT+ and demonstrate their beneficial neuro-protective potential in overcoming and reversing the consequences of I/R injury following stroke.
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