Evaluation of design and insertion analysis of a conical shaped polymeric based microneedle for transdermal drug delivery applications

Q3 Environmental Science

Acta Innovations Pub Date : 2022-10-10 DOI:10.32933/actainnovations.46.4

Aswani Kumar Gera, Rajesh Kumar Burra

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Abstract

Transportation of drug through parental routes are conventionally followed through hypodermic injection methods, where hypodermic injections are administered into the human skin for drug release. However, there are some issues observed when these hypodermic needles are being used, there are instances where the needle is being inserted leaves some needle fractures in the skin. To cater to the issue scientific researchers are voraciously working on designing and developing polymeric type of microneedle structures for various medical diagnostic applications for glucose monitoring, drug delivery, and other applications. This article presents the structural design of a conicalshaped polymeric microneedle and the insertion force while being pierced into the skin. Simulations at different insertion angles on microneedle are analyzed by arriving with total needle displacements in the process of insertion. The von mises stress is also analyzed with applied force at different insertion angles resulted in incremental change in stress exerted by the microneedle. The resultant stress is below the yield stress which makes the microneedle pierce into the skin without breakage.

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用于透皮给药应用的锥形聚合物基微针的设计和插入分析评价

通过亲代途径的药物运输通常是通过皮下注射方法进行的，其中皮下注射进入人体皮肤以释放药物。然而，当这些皮下注射针头被使用时，有一些问题被观察到，在一些情况下，针头被插入在皮肤上留下一些针孔。为了解决这一问题，科学研究人员正不遗余力地设计和开发聚合物型微针结构，用于各种医学诊断应用，如葡萄糖监测、药物输送和其他应用。本文介绍了一种锥形聚合物微针的结构设计和刺入皮肤时的插入力。通过计算针在插入过程中的总位移，对不同插入角度下的微针进行了仿真分析。在不同的插入角度下，微针所施加的应力随插入角度的增加而增加。所得应力低于屈服应力，使微针刺入皮肤而不破裂。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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