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Leveraging Altair SimSolid for Bone Biomechanics at Roth McFarlane
技术
- 传感器 - 扭矩传感器
- 可穿戴设备 - 植入物
适用行业
- 教育
适用功能
- 质量保证
用例
- 实验自动化
- 现场人员安全管理
服务
- 测试与认证
挑战
位于安大略省伦敦的罗斯麦克法兰手和上肢中心 (HULC) 在评估骨应力的生物力学方面面临着重大挑战。该中心在 Louis Ferreira 博士的指导下,使用高分辨率扫描仪进行 CT 扫描的人体骨骼标本。这个过程保留了大部分内部骨小梁的微观结构几何形状。然而,挑战在于,实验模型的许多测量要么是禁止的,要么不可能直接在样本上进行测量。这对于肩关节炎患者尤其重要,他们通常通过用植入物替换患病关节进行手术治疗。该中心需要一种方法来模拟不同植入物类型如何影响骨应力,从而影响手术的寿命。
关于客户
罗斯·麦克法兰手和上肢中心 (HULC) 是一家备受尊敬的世界知名卓越中心,致力于教育、研究以及诊断、护理和治疗手部、手腕、肘部和肩部复杂疾病的患者。除此之外,该中心还专门从事乳房重建、复杂伤口护理以及许多其他需要专门护理的疾病。该中心位于安大略省伦敦,在 Louis Ferreira 博士的指导下,采用先进的技术和方法为患者提供最好的护理。
解决方案
该解决方案以 Altair SimSolid™ 的形式出现,这是一款仿真软件,可以进行与物理模型相匹配的模拟机械测试。将人体骨骼标本模型导入 SimSolid 进行测试。该软件使 HULC 能够增强其实验模型的测量结果,否则这些测量结果将无法或无法直接在样本上进行测量。例如,在肩关节植入物的情况下,SimSolid 允许通过 60 微米分辨率 CT 扫描测试高分辨率骨模型。同样,对于人类头骨,实验模型使用 3D 打印的活塞支架来重建人体头部的肌肉活动线。该实验在 SimSolid 中重新创建,以便测量无法在样本上放置应变计的区域的骨应变。
运营影响
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