用于安全穿透皮肤的耦合微针阵列和插入引导阵列的设计和制造

MHS2003. Proceedings of 2003 International Symposium on Micromechatronics and Human Science (IEEE Cat. No.03TH8717) Pub Date : 2003-12-08 DOI:10.1109/MHS.2003.1249938

S. Khumpuang, R. Maeda, S. Sugiyama

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引用次数: 20

摘要

普通扁平空心尖端微针已被设计和制造用于生物医学MEMS应用。在插入引导器的促进下，针可以通过活表皮向下推，弯曲较少。微针阵列具有与微流控器件集成的能力，因为微针是空心的，液体可以通过孔流动。一个5 /spl倍/ 5 mm/sup / 2/的阵列芯片包含100个微针，相同尺寸的另一个阵列芯片包含100个插入导孔。采用标准的硅微加工工艺制备了这两种阵列。由于微针的形状像管子一样简单，因此设计的理论和模拟可以比复杂的形状更精确。测试结果表明，微针在通过导孔穿透皮肤的过程中没有发生断裂。进行了应力和变形形状的有限元分析，并对针形结构的变形形状和应力进行了解释。

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Design and fabrication of a coupled microneedle array and insertion guide array for safe penetration through skin

Ordinary flat hollow tip, microneedles have been designed and fabricated for biomedical MEMS applications. With the facilitation of an insertion guide, the needles can be pushed down through the viable-epidermis with less bending. The microneedle array has the ability of integration with microfluidic devices since the needles are hollow so that the liquid can flow through the holes. 100 microneedles are contained in a 5 /spl times/ 5 mm/sup 2/ array chip and the same size of another array chip contains 100 insertion guide holes. A standard silicon micromachining process was employed to fabricate both arrays. The shape of microneedle is as simple as a tube so that the designed theories and simulations can be more precise than the complicated shape. The result of testing shows that there was no microneedle broken during the penetration to the skin via the guiding holes. The finite-element analyses of stresses and deformed shapes have been carried out with the explanation of deformed shape and stress occurred in the needle structure.

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MHS2003. Proceedings of 2003 International Symposium on Micromechatronics and Human Science (IEEE Cat. No.03TH8717)

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