The present study was aimed to develop silybin phytosome (SIBP) and evaluate its effectiveness against cerebral ischemia‐reperfusion (CIR) injury in rats. Initially, SIBP was prepared and characterized with Fourier transform‐infrared… Click to show full abstract
The present study was aimed to develop silybin phytosome (SIBP) and evaluate its effectiveness against cerebral ischemia‐reperfusion (CIR) injury in rats. Initially, SIBP was prepared and characterized with Fourier transform‐infrared spectroscopy, differential scanning calorimetry, and scanning electron microscopy. Drug loading and entrapment efficiency of SIBP were also calculated. High‐performance liquid chromatography was used to carry out bioavailability studies of SIBP. Adult Wistar rats were divided randomly into five groups. The CIR injury was induced after 14 days of pretreatment by occlusion of bilateral common carotid arteries for 30 min followed by 4 h of reperfusion. Biochemical estimation, histopathological studies, and in silico studies were carried out. Bioavailability studies revealed that SIB concentration was increased to twofolds in SIBP‐treated rats. SIBP treatment significantly increases superoxide dismutase and glutathione levels while it decreases monoaldehyde, tumor necrosis factor‐α (TNF‐α), and interleukin 6 (IL‐6) levels in both the hippocampus and cortex of the SIBP‐treated CIR‐injured rats. Histopathological studies reveal SIBP treatment alleviates cortex cell death and arrangement of CA1 neurons in CIR‐injured rats. In silico studies against proteins (TNF‐α and IL‐6) involved in cerebral ischemia revealed that silybin (SIB) exhibits strong binding interaction with the target proteins when compared to thalidomide which was used as the positive control. Phytosome increase SIB bioavailability and SIBP treatment showed promising results when compared to treatment with SIB only. Based on our study, we conclude that phytosome is a suitable drug delivery agent to the brain for SIB as SIBP treatment was able to provide neuroprotective action against CIR injury.
               
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