Pharmaceutics | |
Investigation of Plasma Treatment on Micro-Injection Moulded Microneedle for Drug Delivery | |
Karthik Nair2  Benjamin Whiteside2  Colin Grant2  Rajnikant Patel2  Cristina Tuinea-Bobe2  Keith Norris2  Anant Paradkar1  | |
[1]Centre for Pharmaceutical Engineering Science, School of pharmacy, University of Bradford, Bradford, BD7 1DP, UK | |
[2] E-Mail: | |
[3]Centre for Polymer Micro and Nano technology, Interdisciplinary Research Centre, School of Engineering and Informatics, University of Bradford, Bradford, BD7 1DP, UK | |
[4] E-Mails: | |
关键词: plasma treatment; microneedle; micro-injection moulding; atomic force microscope; bovine serum albumin; | |
DOI : 10.3390/pharmaceutics7040471 | |
来源: mdpi | |
【 摘 要 】
Plasma technology has been widely used to increase the surface energy of the polymer surfaces for many industrial applications; in particular to increase in wettability. The present work was carried out to investigate how surface modification using plasma treatment modifies the surface energy of micro-injection moulded microneedles and its influence on drug delivery. Microneedles of polyether ether ketone and polycarbonate and have been manufactured using micro-injection moulding and samples from each production batch have been subsequently subjected to a range of plasma treatment. These samples were coated with bovine serum albumin to study the protein adsorption on these treated polymer surfaces. Sample surfaces structures, before and after treatment, were studied using atomic force microscope and surface energies have been obtained using contact angle measurement and calculated using the Owens-Wendt theory. Adsorption performance of bovine serum albumin and release kinetics for each sample set was assessed using a Franz diffusion cell. Results indicate that plasma treatment significantly increases the surface energy and roughness of the microneedles resulting in better adsorption and release of BSA.
【 授权许可】
CC BY
© 2015 by the authors; licensee MDPI, Basel, Switzerland.
【 预 览 】
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RO202003190004354ZK.pdf | 3040KB | download |