Development of a Novel Soft Tissue Measurement Device for Individualized Finite Element Modeling in Custom-Fit CPAP Mask Evaluation.

IF 3 2区 医学 Q3 ENGINEERING, BIOMEDICAL
Erica Martelly, Summer Lee, Kristina Martinez, Sandeep Rana, Kenji Shimada
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引用次数: 0

Abstract

Purpose: Individual facial soft tissue properties are necessary for creating individualized finite element (FE) models to evaluate medical devices such as continuous positive airway pressure (CPAP) masks. There are no standard tools available to measure facial soft tissue elastic moduli, and techniques in literature require advanced equipment or custom parts to replicate.

Methods: We propose a simple and inexpensive soft tissue measurement (STM) indenter device to estimate facial soft tissue elasticity at five sites: chin, cheek near lip, below cheekbone, cheekbone, and cheek. The STM device consists of a probe with a linear actuator and force sensor, an adjustment system for probe orientation, a head support frame, and a controller. The device was validated on six ballistics gel samples and then tested on 28 subjects. Soft tissue thickness was also collected for each subject using ultrasound.

Results: Thickness and elastic modulus measurements were successfully collected for all subjects. The mean elastic modulus for each site is Ec = 53.04 ± 20.97 kPa for the chin, El = 16.33 ± 8.37 kPa for the cheek near lip, Ebc = 27.09 ± 11.38 kPa for below cheekbone, Ecb = 64.79 ± 17.12 kPa for the cheekbone, and Ech = 16.20 ± 5.09 kPa for the cheek. The thickness and elastic modulus values are in the range of previously reported values. One subject's measured soft tissue elastic moduli and thickness were used to evaluate custom-fit CPAP mask fit in comparison to a model of that subject with arbitrary elastic moduli and thickness. The model with measured values more closely resembles in vivo leakage results.

Conclusion: Overall, the STM provides a first estimate of facial soft tissue elasticity and is affordable and easy to build with mostly off-the-shelf parts. These values can be used to create personalized FE models to evaluate custom-fit CPAP masks.

Abstract Image

开发一种新型软组织测量设备,用于在 CPAP 面罩定制评估中进行个性化有限元建模。
目的:要创建个性化的有限元(FE)模型来评估持续气道正压(CPAP)面罩等医疗设备,就必须要有个性化的面部软组织特性。目前还没有测量面部软组织弹性模量的标准工具,文献中的技术需要先进的设备或定制部件才能复制:方法:我们提出了一种简单而廉价的软组织测量(STM)压头装置,用于估算面部软组织在五个部位的弹性:下巴、靠近嘴唇的脸颊、颧骨下方、颧骨和脸颊。STM 设备由一个带线性致动器和力传感器的探头、一个用于调整探头方向的调整系统、一个头部支撑架和一个控制器组成。该装置在六个弹道凝胶样本上进行了验证,然后在 28 名受试者身上进行了测试。还使用超声波采集了每个受试者的软组织厚度:结果:成功采集了所有受试者的厚度和弹性模量。每个部位的平均弹性模量分别为:下巴 Ec = 53.04 ± 20.97 kPa;颊部近唇 El = 16.33 ± 8.37 kPa;颧骨以下 Ebc = 27.09 ± 11.38 kPa;颧骨 Ecb = 64.79 ± 17.12 kPa;颊部 Ech = 16.20 ± 5.09 kPa。厚度和弹性模量值均在之前报告的范围内。一名受试者的软组织弹性模量和厚度测量值被用于评估定制 CPAP 面罩的匹配度,并与该受试者具有任意弹性模量和厚度的模型进行比较。采用测量值的模型更接近于体内泄漏结果:总之,STM 提供了对面部软组织弹性的初步估计,而且价格低廉,易于使用现成的部件制作。这些数值可用于创建个性化的 FE 模型,以评估定制的 CPAP 面罩。
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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来源期刊
Annals of Biomedical Engineering
Annals of Biomedical Engineering 工程技术-工程:生物医学
CiteScore
7.50
自引率
15.80%
发文量
212
审稿时长
3 months
期刊介绍: Annals of Biomedical Engineering is an official journal of the Biomedical Engineering Society, publishing original articles in the major fields of bioengineering and biomedical engineering. The Annals is an interdisciplinary and international journal with the aim to highlight integrated approaches to the solutions of biological and biomedical problems.
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