在生物医学研究中利用物联网:斯克里普斯诊所骨科植入物案例研究
技术
- 分析与建模 - 计算机视觉软件
- 可穿戴设备 - 植入物
适用行业
- 水泥
- 教育
适用功能
- 产品研发
用例
- 自动化疾病诊断
- 疾病追踪
关于客户
本案例研究中的客户是加利福尼亚州拉霍亚斯克里普斯诊所的希利骨科研究和教育中心 (SCORE)。 SCORE 是一家致力于推进骨科研究和教育领域的著名机构。他们特别专注于提高对骨科植入物的理解和设计,最终目标是提高退行性关节疾病患者的生活质量。他们的工作涉及复杂的生物力学建模和分析,为此他们依赖先进的软件工具。
挑战
斯克里普斯诊所的希利骨科研究和教育中心 (SCORE) 面临着提高对骨科植入物(特别是肩关节置换术)的理解和设计的挑战。现有的植入物通常由钛合金制成并内衬塑料,预计使用寿命不会超过 20 年,因此不适合 65 岁以下的患者。此外,患者经常担心植入物的活动范围、力量恢复和寿命。新的联合。半月板(一种新月形的膝盖软骨)替代物的建模过程也是一项复杂且耗时的任务,需要团队每次想要改变曲率或厚度时从头开始建模过程。
解决方案
SCORE 利用 Altair HyperWorks 软件工具来增强他们对关节置换所涉及的生物力学的理解。他们使用 Mimics 3D 图像处理软件将患者肩部的 CT 图像切片合并到 3D 体积中,并导出骨骼表面。使用 HyperMesh,该团队从患者肩部模型中移除了患病的骨头,并用植入物(包括将其固定到位的水泥)代替。这有助于外科医生为每位患者选择最佳的种植体产品并改进他们的手术技术。为了对半月板进行建模,该团队首先从 MRI 扫描中分割出患者半月板的 3D 图像,然后使用 HyperMesh 构建整个膝盖的有限元分析模型。他们使用网格变形来调整参数,以确定变化如何影响接触应力。 D'Lima 博士还使用 Altair OptiStruct 来模拟应力窗口,这是影响种植体寿命的关键因素。
运营影响
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