蚊香微针往复旋转对穿刺阻力的影响--通过穿刺实验和非线性有限元分析进行评估--《美国国家科学院学报》(National Science Institute of Sciences, NSC),2011 年第 3 期。

IF 0.9 Q4 AUTOMATION & CONTROL SYSTEMS International Journal of Automation Technology Pub Date : 2024-03-05 DOI:10.20965/ijat.2024.p0276
Akira Mizutsu, Yuki Okumura, Atsushi Ueda, S. Yamamoto, Tomokazu Takahashi, Masato Suzuki, S. Aoyagi, Toshio Nagashima, Makoto Chiyonobu, Hideki Nishikawa, Fumio Sudo, Toshiyuki Ohdaira, Satoshi Seshimo
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引用次数: 0

摘要

目前,医疗领域希望开发一种低创微针,以减轻病人的压力和痛苦。我们已经关注到蚊子刺破皮肤时不会给人类带来疼痛感。我们对蚊子进行了观察,发现当蚊子的探针刺破人类皮肤时,它们会做出以下三种行为:对人类皮肤施加拉力;旋转探针;振动探针。在之前的研究中,我们开发了一套由三根微针组成的捆绑式蚊子探针,并通过实验证明了它们交替振动的作用,这也是蚊子的穿刺行为之一。然而,三根针之间的适当间隙很难设置,使其驱动系统过于复杂,无法实际使用。因此,我们开发了一种简化的微针,把针的数量从三根减少到两根或一根。本文的重点是单针旋转的影响。使用我们开发的直径为 90 微米的微针和直径为 180 微米的最细商用微针,我们通过人工皮肤穿刺实验和非线性有限元法(FEM)分析,评估了蚊子穿刺行为之一的往复旋转的影响。结果发现,往复旋转抑制了穿刺阻力和皮肤挠度。
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Effects of Mosquito-Imitated Microneedle’s Reciprocating Rotations on Puncture Resistance Forces—Evaluations by Puncturing Experiments and Nonlinear FEM Analyses—
Development of a low-invasive microneedle is currently desired in the medical field to mitigate the patients’ stress and pain. We have paid attention to mosquitoes that puncture the skin without giving humans no feelings of pain. We have observed mosquitoes and found that when their proboscis punctures human skin, they make the following three behaviors: apply tension to human skin; rotate their proboscis; vibrate their proboscis. In our previous studies, we developed a bundled set of three microneedle imitating the mosquito’s proboscis and experimentally proved the usefulness of their alternate vibrations, which is one of the mosquito’s puncturing behaviors. However, the setting of three needles with proper clearances from each other was difficult, making their driving system too complex to practically use it. Therefore, we have developed a simplified microneedle by reducing the number of needles from three to two or one. This paper has focused on the effects of the rotations of a single needle. Using our developed microneedle with a diameter of 90 µm and the thinnest commercial microneedle with a diameter of 180 µm, we evaluated the effect of reciprocating rotation, one of the mosquitoes’ puncturing behaviors, by puncture experiments using artificial skin and nonlinear finite element method (FEM) analysis. As a result, it was found that the reciprocating rotation suppresses the puncture resistance force and the skin deflection.
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来源期刊
International Journal of Automation Technology
International Journal of Automation Technology AUTOMATION & CONTROL SYSTEMS-
CiteScore
2.10
自引率
36.40%
发文量
96
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