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Ph driven encapsulation of curcumin in self-assembled niosome curcuminoid physical characterizations, encapsulation efficiency & stability study

Ph driven encapsulation of curcumin in self-assembled niosome curcuminoid physical characterizations, encapsulation efficiency & stability study / Saravanan Reddy Kalidas

Abstract Kurkumin adalah antioksidan dengan pelbagai ciri-ciri pemyembuhan tetapi mempunyai kelarutan yang rendah dan kurang bioavailabiliti disebabkan oleh pengaruh pH yang tinggi. Niosom terdiri daripada surfaktan bukan ionik yang bertindak sebagai vesikel pengangkutan untuk mengatasi batasan kurkumin sebagai ubat berpotensi. Tujuan kajian ini adalah untuk mengkaji pengaruh pH yang berbeza ke atas sifat fiziokimia kurkumin niosom. Niosom terdiri daripada nisbah 1:1 daripada Span 60: Tween 60 digunakan sebagai ejen membentuk vesikel dan disediakan dengan menggunakan kaedah penghidratan filem nipis. Pengaruh rumusan kepada saiz vesikel, kecekapan pemerangkapan (EE) dan kestabilan kurkumin niosom telah disiasat. Mikroskop transmisi elektron (TEM) mendedahkan bahawa niosom pada pH 3 dan 7 mempunyai bentuk sfera dan taburan yang seragam, manakala pH 9 menghasilkan niosom yang tidak teratur. Hasil kajian menunjukkan bahawa penubuhan kurkumin dalam niosom pada pH 3 menghasilkan vesikel dengan saiz yang lebih besar (394.07 ± 17.35 nm sehingga 556.37 ± 28.44 nm) berbanding formulasi pH lain sebelum penyemperitan. Walau bagaimanapun, selepas penyemperitan saiz telah dikurangkan dengan ketara (150.30 ± 2.29 nm sehingga 156.30 ± 2.17 nm). Selain itu, EE daripada kurkumin niosom pada pH 3 adalah paling tinggi (75.23%) berbanding dengan niosom pada pH lain. Tambahan pula, potensi zeta pada pH 3 adalah amat rendah berbanding pH 7 dan 9. Selepas disimpan selama 1 bulan, didapati bahawa keadaan beku (-4oC) mempunyai kestabilan tertinggi dengan penurunan EE yang paling rendah. Saiz niosom kurkumin meningkat dan mula menggumpal apabila suhu dan tempoh simpanan bertambah, menunjukkan kestabilan yang lebih rendah pada suhu yang tingg _______________________________________________________________________________________________________ Curcumin is an antioxidant with various healing properties but possesses limitation due to its poor solubility and reduced bioavailability as pH influences greatly on curcumin. Niosomes are composed of non-ionic surfactants and act as transport vesicle for drug delivery to overcome the limitations of curcumin as a potential drug. The aim of this study was to investigate the influence of different pH on the physiochemical properties of curcumin-loaded niosomes. The niosomes were composed of 1:1 mole ratio of Span 60: Tween 60 as vesicle-forming agents and prepared using thin film hydration method. The influence of formulation on vesicle size, entrapment efficiency (EE) and stability of curcumin-loaded niosomes was investigated. Transmission electron microscopy (TEM) revealed that niosomes at pH 3 and 7 had a spherical shape and uniform distribution, while pH 9 produced irregularly shaped niosomes. The results showed that the incorporation of curcumin into niosome at pH 3 yielded vesicles with larger sizes (394.07 ± 17.35 nm to 556.37 ± 28.44 nm) compared to other pH formulation before extrusion. However, after extrusion the size has been significantly reduced to smaller sizes (150.30 ± 2.29 nm to 156.30 ± 2.17 nm). Furthermore, the EE of curcumin niosomes at pH 3 was highest (75.23%) than that of niosomes at pH 7 and 9. The zeta potential at pH 3 was also remarkably lower than pH 7 and 9, yet decreases gradually over time. After 28 days storage, it was found that freezer storage (-4oC) had the highest stability with less reduction in EE. The size of all the formulation increased and started to aggregate when the temperature and storage period increases indicating lower stability at a higher temperature.

Contributor(s): Saravanan Reddy Kalidas - Author Primary Item Type: Final Year Project Identifiers: Accession Number : 875007564 Language: English Subject Keywords: Curcumin; antioxidant; healing properties First presented to the public: 6/1/2018 Original Publication Date: 7/18/2018 Previously Published By: Universiti Sains Malaysia Place Of Publication: School of Chemical Engineering Citation: Extents: Number of Pages - 74 License Grantor / Date Granted:   / ( View License ) Date Deposited 2018-07-31 11:36:13.531 Date Last Updated 2019-01-07 11:24:32.9118 Submitter: Mohd Jasnizam Mohd Salleh

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