| Literature DB >> 23543070 |
Shaun D Gittard1, Bo Chen, Huadong Xu, Aleksandr Ovsianikov, Boris N Chichkov, Nancy A Monteiro-Riviere, Roger J Narayan.
Abstract
Microneedles are small-scale devices that may be used for drug delivery and biosensing. In this study, the forces required for mechanical failure, the modes of mechanical failure, as well as the mechanisms for microneedle penetration into porcine skin were examined. Microneedles produced from the acrylate-based polymer e-Shell 200 using an indirect rapid prototyping approach involving two-photon polymerization and poly(dimethylsiloxane) micromolding were found to possess sufficient strength for penetration of porcine skin. The failure forces were an order of magnitude greater than the forces necessary for full insertion into the skin. Bending was the most common form of failure; an increasing aspect ratio and a decreasing tip diameter were associated with lower failure forces. Video captured during skin penetration revealed that microneedle penetration into the skin occurred by means of a series of insertions and not by means of a single insertion event. Images obtained during and after skin penetration confirmed microneedle penetration of skin as well as transdermal delivery of lucifer yellow dye. These findings shed insight into the mechanisms of microneedle penetration and failure, facilitating design improvements for polymer microneedles.Entities:
Keywords: acrylate-based polymer; micromolding; microneedle; porcine skin
Year: 2012 PMID: 23543070 PMCID: PMC3610923 DOI: 10.1080/01694243.2012.705101
Source DB: PubMed Journal: J Adhes Sci Technol ISSN: 0169-4243 Impact factor: 2.077