In-vivo anti-inflammatory study showed significant activity for C. Liposomes were prepared in the range of 80-250 nm and optimized batches of liposomes showed drug entrapment efficiency of 60-88 %.
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Process parameters and material attributes perspective processing temperature, buffer pH and drug: lipid ratio is found as major parameters affecting the average particle size and PDI value of liposomes. GC-MS study data showed that phytol is present in C. The in-vivo anti-inflammatory study of the liposomal preparation of phytol was evaluated using a rat model and in-vitro cancer cell line study was performed on AML and Leukamia cell lines. Liposomal batches of Corchorus olitorius leaf extract were characterized using Malvern zetasizer, transmission electron microscopy (TEM) and UV spectroscopy. Corchorus olitorius leaf extraction was performed using maceration method and characterised using GC-MS. The impact of different process parameters and material attributes were studied on the average particle size and polydispersity of liposomal batches using design of experiment (DoE).
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However, phytol is poorly soluble and absorbed through the intestine wall, therefore the aim of this study is to develop liposomal drug delivery of Corchorus olitorius leaf extract with an average particle size below 150 nm and drug loading efficiency of ≥ 85 %. Phytol, a pharmacologically active compound present in Corchorus olitorius leaf exhibit a range of activity including anti-inflammatory, antioxidant, anticancer, hepatoprotective etc.