Hollow Microneedle Array Fabrication with Rational Design to Prevent Skin Clogging in Transdermal Drug Delivery

09 March 2022, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Microneedle (MN) technology is a promising candidate to replace hypodermic needles for practical use and painless drug delivery. However, the complex top-down fabrication process of functional MN arrays is a bottleneck that hinders their widespread use. Here, we fabricate the tapered hollow MN array with a unique bi-level-tip by combining strain-engineering and capillary self-assembly of carbon nanotube (CNT) microstructures. Strain-engineering facilitated by the offset pattern of the catalyst enables the growth of bent, bi-level CNT microstructures while capillary self-assembly helps constituting the tapered geometry of MNs. The bottom-up fabrication that consists of only two standard photolithography steps and CNT growth to form the scaffold of MNs followed by a polymer (polyimide) reinforcement step to impart mechanical stiffness to MNs provides scalable and less processing steps. The tapered shape of the MN allows 8 times less force to pierce and penetrate the skin compared to the straight MN. The liquid delivery rate of the bi-level-tip MN is measured to be 26% better than the flat tip MN of the same lumen size as its geometry reduces skin clogging effect at the needle tip. In addition, cytotoxicity tests verify that the polyimide reinforced CNT-MNs are biocompatible for future in-vivo applications.

Keywords

hollow microneedles
carbon nanotubes
strain-engineering
capillary self-assembly
transdermal drug delivery
polyimide

Supplementary materials

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Supplementary Movie 1
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methylene blue solution ejection of some MNs due to the small applied force
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Supplementary Movie 2
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water delivery to the air
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Supplementary Movie 3
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PICNT-MNs are applied to the hydrogel
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Supplementary Movie 4
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PICNT-MNs are applied to the rat skin
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Supporting Information
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Supplementary Figures
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