ZnO nano-rod devices for intradermal delivery and immunization
Intradermal delivery of antigens for vaccination is a very attractive approach since the skin provides a rich network of antigen presenting cells, which aid in stimulating an immune response. Numerous intradermal techniques have been developed to enhance penetration across the skin. However, these m...
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sg-ntu-dr.10356-884072023-07-14T15:45:57Z ZnO nano-rod devices for intradermal delivery and immunization Nayak, Tapas R. Wang, Hao Pant, Aakansha Zheng, Minrui Junginger, Hans Goh, Wei Jiang Lee, Choon Keong Zou, Shui Alonso, Sylvie Czarny, Bertrand Storm, Gert Sow, Chorng Haur Chengkuo, Lee Pastorin, Giorgia School of Materials Science & Engineering Lee Kong Chian School of Medicine (LKCMedicine) DRNTU::Engineering::Materials ZnO Nano-rods Skin Immunization Intradermal delivery of antigens for vaccination is a very attractive approach since the skin provides a rich network of antigen presenting cells, which aid in stimulating an immune response. Numerous intradermal techniques have been developed to enhance penetration across the skin. However, these methods are invasive and/or affect the skin integrity. Hence, our group has devised zinc oxide (ZnO) nano-rods for non-destructive drug delivery. Chemical vapour deposition was used to fabricate aligned nano-rods on ZnO pre-coated silicon chips. The nano-rods’ length and diameter were found to depend on the temperature, time, quality of sputtered silicon chips, etc. Vertically aligned ZnO nano-rods with lengths of 30–35 µm and diameters of 200–300 nm were selected for in vitro human skin permeation studies using Franz cells with Albumin-fluorescein isothiocyanate (FITC) absorbed on the nano-rods. Fluorescence and confocal studies on the skin samples showed FITC penetration through the skin along the channels formed by the nano-rods. Bradford protein assay on the collected fluid samples indicated a significant quantity of Albumin-FITC in the first 12 h. Low antibody titres were observed with immunisation on Balb/c mice with ovalbumin (OVA) antigen coated on the nano-rod chips. Nonetheless, due to the reduced dimensions of the nano-rods, our device offers the additional advantage of excluding the simultaneous entrance of microbial pathogens. Taken together, these results showed that ZnO nano-rods hold the potential for a safe, non-invasive, and painless intradermal drug delivery. Published version 2018-09-03T02:08:34Z 2019-12-06T17:02:38Z 2018-09-03T02:08:34Z 2019-12-06T17:02:38Z 2017 Journal Article Nayak, T. R., Wang, H., Pant, A., Zheng, M., Junginger, H., Goh, W. J., . . . Pastorin, G. (2017). ZnO Nano-Rod Devices for Intradermal Delivery and Immunization. Nanomaterials, 7(6), 147-. doi:10.3390/nano7060147 2079-4991 https://hdl.handle.net/10356/88407 http://hdl.handle.net/10220/45786 10.3390/nano7060147 en Nanomaterials © 2017 by The Author(s). Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/). 12 p. application/pdf |
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DRNTU::Engineering::Materials ZnO Nano-rods Skin Immunization Nayak, Tapas R. Wang, Hao Pant, Aakansha Zheng, Minrui Junginger, Hans Goh, Wei Jiang Lee, Choon Keong Zou, Shui Alonso, Sylvie Czarny, Bertrand Storm, Gert Sow, Chorng Haur Chengkuo, Lee Pastorin, Giorgia ZnO nano-rod devices for intradermal delivery and immunization |
| description |
Intradermal delivery of antigens for vaccination is a very attractive approach since the skin provides a rich network of antigen presenting cells, which aid in stimulating an immune response. Numerous intradermal techniques have been developed to enhance penetration across the skin. However, these methods are invasive and/or affect the skin integrity. Hence, our group has devised zinc oxide (ZnO) nano-rods for non-destructive drug delivery. Chemical vapour deposition was used to fabricate aligned nano-rods on ZnO pre-coated silicon chips. The nano-rods’ length and diameter were found to depend on the temperature, time, quality of sputtered silicon chips, etc. Vertically aligned ZnO nano-rods with lengths of 30–35 µm and diameters of 200–300 nm were selected for in vitro human skin permeation studies using Franz cells with Albumin-fluorescein isothiocyanate (FITC) absorbed on the nano-rods. Fluorescence and confocal studies on the skin samples showed FITC penetration through the skin along the channels formed by the nano-rods. Bradford protein assay on the collected fluid samples indicated a significant quantity of Albumin-FITC in the first 12 h. Low antibody titres were observed with immunisation on Balb/c mice with ovalbumin (OVA) antigen coated on the nano-rod chips. Nonetheless, due to the reduced dimensions of the nano-rods, our device offers the additional advantage of excluding the simultaneous entrance of microbial pathogens. Taken together, these results showed that ZnO nano-rods hold the potential for a safe, non-invasive, and painless intradermal drug delivery. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Nayak, Tapas R. Wang, Hao Pant, Aakansha Zheng, Minrui Junginger, Hans Goh, Wei Jiang Lee, Choon Keong Zou, Shui Alonso, Sylvie Czarny, Bertrand Storm, Gert Sow, Chorng Haur Chengkuo, Lee Pastorin, Giorgia |
| format |
Article |
| author |
Nayak, Tapas R. Wang, Hao Pant, Aakansha Zheng, Minrui Junginger, Hans Goh, Wei Jiang Lee, Choon Keong Zou, Shui Alonso, Sylvie Czarny, Bertrand Storm, Gert Sow, Chorng Haur Chengkuo, Lee Pastorin, Giorgia |
| author_sort |
Nayak, Tapas R. |
| title |
ZnO nano-rod devices for intradermal delivery and immunization |
| title_short |
ZnO nano-rod devices for intradermal delivery and immunization |
| title_full |
ZnO nano-rod devices for intradermal delivery and immunization |
| title_fullStr |
ZnO nano-rod devices for intradermal delivery and immunization |
| title_full_unstemmed |
ZnO nano-rod devices for intradermal delivery and immunization |
| title_sort |
zno nano-rod devices for intradermal delivery and immunization |
| publishDate |
2018 |
| url |
https://hdl.handle.net/10356/88407 http://hdl.handle.net/10220/45786 |
| _version_ |
1772826969599115264 |