Stress and Deformation of Optimally Shaped Silicon Microneedles for Transdermal Drug Delivery

In this study, we demonstrated the fabrication of the concave conic shape microneedle with the aid of COMSOL Multiphysics simulation. The stress and buckling of the microneedle structure were simulated by applying various loads ranging from 50 to 800 g perpendiculars to the tip in order to predict t...

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Bibliographic Details
Published in:Journal of pharmaceutical sciences 2020-08, Vol.109 (8), p.2485-2492
Main Authors: Zainal Abidin, Hafzaliza Erny, Ooi, Poh Choon, Tiong, Teck Yaw, Marsi, Noraini, Ismardi, Abrar, Mohd Noor, Mimiwaty, Nik Zaini Fathi, Nik Amni Fathi, Abd Aziz, Norazreen, Sahari, Siti Kudnie, Sugandi, Gandi, Yunas, Jumril, Dee, Chang Fu, Yeop Majlis, Burhanuddin, Hamzah, Azrul Azlan
Format: Article
Language:English
Subjects:
Buckling analysis
COMSOL Multiphysics
Concave conic microneedles
Rat skin
Stress analysis
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Summary:In this study, we demonstrated the fabrication of the concave conic shape microneedle with the aid of COMSOL Multiphysics simulation. The stress and buckling of the microneedle structure were simulated by applying various loads ranging from 50 to 800 g perpendiculars to the tip in order to predict the occurrence of microneedles structure deformation. The simulation study indicated that the surface buckling deformation does not occur to the microneedle structure with the increment of the load. The microneedles with dimensions of height and diameter tip ranging from 60 to 100 μm and 1 to 4 μm, respectively had been fabricated via an etching process in a mixture of hydrofluoric acid, nitric acid, and acetic acid. Three optimized microneedles but different in the structures were fabricated via the acidic etching process. The reproducibility of 3 different microneedle structures was 15, 20, and 60%, respectively. Stress and buckling analyses of the fabricated microneedles were further carried out on the rat skin. The obtained experimental results show promising applications for the deep dermis, stratum corneum to epidermis layer penetration.
ISSN:0022-3549
1520-6017
DOI:10.1016/j.xphs.2020.04.019