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Design and fabrication of customizable microneedles enabled by 3D printing for biomedical applications

Jia Min Loh, Yun Lim, Jin Ting Tay, Hui Mei Cheng, Hong Liang Tey, Kun Liang

2023Bioactive Materials88 citationsDOIOpen Access PDF

Abstract

Microneedles (MNs) is an emerging technology that employs needles ranging from 10 to 1000 μm in height, as a minimally invasive technique for various procedures such as therapeutics, disease monitoring and diagnostics. The commonly used method of fabrication, micromolding, has the advantage of scalability, however, micromolding is unable to achieve rapid customizability in dimensions, geometries and architectures, which are the pivotal factors determining the functionality and efficacy of the MNs. 3D printing offers a promising alternative by enabling MN fabrication with high dimensional accuracy required for precise applications, leading to improved performance. Furthermore, enabled by its customizability and one-step process, there is propitious potential for growth for 3D-printed MNs especially in the field of personalized and on-demand medical devices. This review provides an overview of considerations for the key parameters in designing MNs, an introduction on the various 3D-printing techniques for fabricating this new generation of MNs, as well as highlighting the advancements in biomedical applications facilitated by 3D-printed MNs. Lastly, we offer some insights into the future prospects of 3D-printed MNs, specifically its progress towards translation and entry into market.

Topics & Concepts

3D printingFabricationScalabilityNanotechnology3d printedComputer scienceMaterials scienceProcess (computing)Rapid prototypingSystems engineeringManufacturing engineeringEngineeringOperating systemPathologyAlternative medicineComposite materialDatabaseMedicineAdvancements in Transdermal Drug Delivery3D Printing in Biomedical ResearchMicrofluidic and Capillary Electrophoresis Applications
Design and fabrication of customizable microneedles enabled by 3D printing for biomedical applications | Litcius