Analytical Study of Interstitial Fluid Extractive Microneedle Arrays Using Differential Transform Method

IF 0.5 Q4 ENGINEERING, BIOMEDICAL Journal of Biomimetics, Biomaterials and Biomedical Engineering Pub Date : 2023-11-03 DOI:10.4028/p-2spruh
Ihuoma V. Diwe, Olurotimi A. Adeleye, Henry E. Mgbemere
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Abstract

The computational studies of a predictive mathematical model for the extraction of interstitial (ISF) for transdermal and non-invasive diagnosis using biodegradable and hollow microneedle patch is presented in this paper. Rapid Diagnostic Tests diagnosis, which is non-invasive, affordable, straightforward, and provides results promptly and reliably, has increased access to parasite-based analysis on a global scale. Microneedle arrays are a rapidly evolving and promising technology for transdermal interstitial fluid extraction, which is used for many clinical diagnostic procedures. Hence, a developed mathematical predictive model used to optimize the design of microneedle patch for transdermal ISF extraction and subsequent diagnosis using dissolvable microneedle arrays was applied in this study. The model's solutions were obtained using the Differential Transform Method. The numerical Runge-Kutta method of fourth order was used to validate it. An experimental test result was also used to further validate the analytical results in the absence of the extracted velocity parameter. And there was a good agreement among them. Influence of dissolution rate constant, microneedle height, diffusion coefficient, velocity of ISF, microneedle ISF drug load, and density of the microneedle; were investigated. Increase in diffusion coefficient and density led to an increase in concentration of ISF extracted over time, an increase in dissolution rate led to a decrease in concentration extracted, while decrease in drug load and height, led to increase in ISF concentration extracted. A negligible effect was observed by varying the velocity of ISF extracted. The approximate analytical approach utilized in the current work has given us a more precise strategy for creating a mathematical model that predicts how ISF will be extracted from skin for use in transdermal and non-invasive rapid diagnostic tests.
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基于微分变换的间隙流体萃取微针阵列分析研究
本文研究了利用可生物降解空心微针贴片提取间质(ISF)用于透皮无创诊断的预测数学模型。快速诊断测试的诊断是非侵入性的、负担得起的、直接的,并能迅速和可靠地提供结果,增加了在全球范围内获得基于寄生虫的分析的机会。微针阵列是一种快速发展和有前途的透皮间质液提取技术,用于许多临床诊断程序。因此,本研究建立了一个数学预测模型,用于优化设计用于经皮ISF提取和随后使用可溶微针阵列诊断的微针贴片。利用微分变换方法得到了模型的解。采用四阶龙格-库塔数值方法对其进行了验证。在没有提取速度参数的情况下,用实验测试结果进一步验证了分析结果。他们就同心合意。溶出速率常数、微针高度、扩散系数、ISF速度、微针ISF载药量、微针密度的影响;被调查。随着时间的推移,扩散系数和密度的增加导致ISF提取浓度的增加,溶出速度的增加导致提取浓度的降低,而载药量和高度的降低导致ISF提取浓度的增加。通过改变提取ISF的速度,观察到的影响可以忽略不计。当前工作中使用的近似分析方法为我们提供了一种更精确的策略,用于创建数学模型,预测如何从皮肤中提取ISF用于透皮和非侵入性快速诊断测试。
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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CiteScore
1.40
自引率
14.30%
发文量
73
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