Engineering Microneedle Patches for Improved Penetration: Analysis, Skin Models and Factors Affecting Needle Insertion

Pooyan Makvandi; Melissa Kirkby; Aaron R. J. Hutton; Majid Shabani; Cynthia K. Y. Yiu; Zahra Baghbantaraghdari; Rezvan Jamaledin; Marco Carlotti; Barbara Mazzolai; Virgilio Mattoli; Ryan F. Donnelly

doi:10.1007/s40820-021-00611-9

Nano-Micro Letters (Mar 2021)

Engineering Microneedle Patches for Improved Penetration: Analysis, Skin Models and Factors Affecting Needle Insertion

Pooyan Makvandi,
Melissa Kirkby,
Aaron R. J. Hutton,
Majid Shabani,
Cynthia K. Y. Yiu,
Zahra Baghbantaraghdari,
Rezvan Jamaledin,
Marco Carlotti,
Barbara Mazzolai,
Virgilio Mattoli,
Ryan F. Donnelly

Affiliations

Pooyan Makvandi: Istituto Italiano Di Tecnologia, Centre for Materials Interface
Melissa Kirkby: School of Pharmacy, Queen’s University Belfast
Aaron R. J. Hutton: School of Pharmacy, Queen’s University Belfast
Majid Shabani: Istituto Italiano Di Tecnologia, Centre for Materials Interface
Cynthia K. Y. Yiu: Paediatric Dentistry and Orthodontics, Faculty of Dentistry, The University of Hong Kong, Prince Philip Dental Hospital
Zahra Baghbantaraghdari: Department of Chemical, Materials and Industrial Production Engineering, University of Naples Federico II
Rezvan Jamaledin: Department of Chemical, Materials and Industrial Production Engineering, University of Naples Federico II
Marco Carlotti: Istituto Italiano Di Tecnologia, Centre for Materials Interface
Barbara Mazzolai: Istituto Italiano Di Tecnologia, Centre for Materials Interface
Virgilio Mattoli: Istituto Italiano Di Tecnologia, Centre for Materials Interface
Ryan F. Donnelly: School of Pharmacy, Queen’s University Belfast

DOI: https://doi.org/10.1007/s40820-021-00611-9
Journal volume & issue: Vol. 13, no. 1
pp. 1 – 41

Abstract

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Abstract Transdermal microneedle (MN) patches are a promising tool used to transport a wide variety of active compounds into the skin. To serve as a substitute for common hypodermic needles, MNs must pierce the human stratum corneum (~ 10 to 20 µm), without rupturing or bending during penetration. This ensures that the cargo is released at the predetermined place and time. Therefore, the ability of MN patches to sufficiently pierce the skin is a crucial requirement. In the current review, the pain signal and its management during application of MNs and typical hypodermic needles are presented and compared. This is followed by a discussion on mechanical analysis and skin models used for insertion tests before application to clinical practice. Factors that affect insertion (e.g., geometry, material composition and cross-linking of MNs), along with recent advancements in developed strategies (e.g., insertion responsive patches and 3D printed biomimetic MNs using two-photon lithography) to improve the skin penetration are highlighted to provide a backdrop for future research.

Published in Nano-Micro Letters

ISSN: 2311-6706 (Print); 2150-5551 (Online)
Publisher: SpringerOpen
Country of publisher: Germany
LCC subjects: Technology
Website: http://www.springer.com/40820

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Abstract

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