Two Photon Polymerization-Micromolding of Polyethylene Glycol-Gentamicin Sulfate Microneedles

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Shaun D. Gittard
  • Aleksandr Ovsianikov
  • Hasan Akar
  • Boris Chichkov
  • Nancy A. Monteiro-Riviere
  • Shane Stafslien
  • Bret Chisholm
  • Chun Che Shin
  • Chun Ming Shih
  • Shing Jong Lin
  • Yea Yang Su
  • Roger J. Narayan

External Research Organisations

  • North Carolina State University
  • Laser Zentrum Hannover e.V. (LZH)
  • North Dakota State University
  • National Yang-Ming University
  • Veterans General Hospital-Taipei
  • Taipei Medical University
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Details

Original languageEnglish
Pages (from-to)B77-B82
JournalAdvanced engineering materials
Volume12
Issue number4
Publication statusPublished - 23 Apr 2010
Externally publishedYes

Abstract

The use of microneedles for transdermal drug delivery is limited due to the risk of infection associated with formation of channels through the stratum corneum layer of the epidermis. The risk of infection associated with use of microneedles may be reduced by imparting these devices with antimicrobial properties. In this study, a photopolymerization-micromolding technique was used to fabricate microneedle arrays from a photosensitive material containing polyethylene glycol 600 diacrylate, gentamicin sulfate, and a photoinitiator. Scanning electron microscopy indicated that the photopolymerization-micromolding process produced microneedle arrays that exhibited good microneedle-to- microneedle uniformity. An agar plating assay revealed that microneedles fabricated with polyethylene glycol 600 diacrylate containing 2mg mL -1 gentamicin sulfate inhibited growth of Staphylococcus aureus bacteria. Scanning electron microscopy revealed no platelet aggregation on the surfaces of platelet rich plasma-exposed undoped polyethylene glycol 600 diacrylate microneedles and gentamicin-doped polyethylene glycol 600 diacrylate microneedles. These efforts will enable wider adoption of microneedles for transdermal delivery of pharmacologic agents.

ASJC Scopus subject areas

Cite this

Two Photon Polymerization-Micromolding of Polyethylene Glycol-Gentamicin Sulfate Microneedles. / Gittard, Shaun D.; Ovsianikov, Aleksandr; Akar, Hasan et al.
In: Advanced engineering materials, Vol. 12, No. 4, 23.04.2010, p. B77-B82.

Research output: Contribution to journalArticleResearchpeer review

Gittard, SD, Ovsianikov, A, Akar, H, Chichkov, B, Monteiro-Riviere, NA, Stafslien, S, Chisholm, B, Shin, CC, Shih, CM, Lin, SJ, Su, YY & Narayan, RJ 2010, 'Two Photon Polymerization-Micromolding of Polyethylene Glycol-Gentamicin Sulfate Microneedles', Advanced engineering materials, vol. 12, no. 4, pp. B77-B82. https://doi.org/10.1002/adem.200980012
Gittard, S. D., Ovsianikov, A., Akar, H., Chichkov, B., Monteiro-Riviere, N. A., Stafslien, S., Chisholm, B., Shin, C. C., Shih, C. M., Lin, S. J., Su, Y. Y., & Narayan, R. J. (2010). Two Photon Polymerization-Micromolding of Polyethylene Glycol-Gentamicin Sulfate Microneedles. Advanced engineering materials, 12(4), B77-B82. https://doi.org/10.1002/adem.200980012
Gittard SD, Ovsianikov A, Akar H, Chichkov B, Monteiro-Riviere NA, Stafslien S et al. Two Photon Polymerization-Micromolding of Polyethylene Glycol-Gentamicin Sulfate Microneedles. Advanced engineering materials. 2010 Apr 23;12(4):B77-B82. doi: 10.1002/adem.200980012
Gittard, Shaun D. ; Ovsianikov, Aleksandr ; Akar, Hasan et al. / Two Photon Polymerization-Micromolding of Polyethylene Glycol-Gentamicin Sulfate Microneedles. In: Advanced engineering materials. 2010 ; Vol. 12, No. 4. pp. B77-B82.
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abstract = "The use of microneedles for transdermal drug delivery is limited due to the risk of infection associated with formation of channels through the stratum corneum layer of the epidermis. The risk of infection associated with use of microneedles may be reduced by imparting these devices with antimicrobial properties. In this study, a photopolymerization-micromolding technique was used to fabricate microneedle arrays from a photosensitive material containing polyethylene glycol 600 diacrylate, gentamicin sulfate, and a photoinitiator. Scanning electron microscopy indicated that the photopolymerization-micromolding process produced microneedle arrays that exhibited good microneedle-to- microneedle uniformity. An agar plating assay revealed that microneedles fabricated with polyethylene glycol 600 diacrylate containing 2mg mL -1 gentamicin sulfate inhibited growth of Staphylococcus aureus bacteria. Scanning electron microscopy revealed no platelet aggregation on the surfaces of platelet rich plasma-exposed undoped polyethylene glycol 600 diacrylate microneedles and gentamicin-doped polyethylene glycol 600 diacrylate microneedles. These efforts will enable wider adoption of microneedles for transdermal delivery of pharmacologic agents.",
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AU - Narayan, Roger J.

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