Julia N LaMonica, Brian Rhee, Kenneth Milligan, Michael Leslie, Steven M Tommasini, Daniel H Wiznia
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Models were meshed and exported to Abaqus for finite element analysis to evaluate the device's ability to reduce stress in the proximal femur. Results were analyzed for element-wise volume and von-Mises stresses.</p><p><strong>Results: </strong>The implant reduced peak stress and bone failure at all levels of bone quality. Specifically in osteoporotic bone, the implant decreased peak stress by 27%, proximal femur trabecular bone failure by 5% and cortical bone failure by 100% in the femoral neck.</p><p><strong>Conclusions: </strong>Our results from computer generated finite element analyses indicate that the Femoral Neck System may strengthen an osteoporotic proximal femur in the event of a lateral fall. 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引用次数: 0
摘要
导言:髋部骨折对老年患者有显著的发病率和死亡率,并且随着人口老龄化,发病率正在增加。原发性髋部骨折后,尽管采取了降低骨折风险的措施,包括预防跌倒和骨质疏松药物治疗,但高达20%的患者可能在5年内发生对侧髋部骨折。本研究的目的是评估股骨颈系统(Depuy Synthes, West Chester, PA)插入对侧股骨近端是否可以增强骨骼并降低对侧髋部骨折的发生率。材料和方法:使用图像处理软件ScanIP生成带有植入装置的尸体股骨的三维模型。将模型网格化并导出到Abaqus进行有限元分析,以评估该装置减少股骨近端应力的能力。结果分析了单元体积和冯-米塞斯应力。结果:种植体降低了各骨质量水平的峰值应力和骨衰竭。特别是在骨质疏松的骨中,植入物降低了27%的峰值应力,股骨颈近端股骨小梁骨衰竭降低了5%,皮质骨衰竭降低了100%。结论:我们的计算机生成的有限元分析结果表明,股骨颈系统可以在发生侧落时加强骨质疏松的股骨近端。进一步的研究需要扩展有限元分析和尸体生物力学研究来验证这些结果。
Finite Element Evaluation of the Femoral Neck System as Prophylactic Fixation to Prevent Contralateral Hip Fractures.
Introduction: Hip fractures cause significant morbidity and mortality for geriatric patients, and incidence is increasing as the population ages. Following a primary hip fracture, up to 20% may suffer a contralateral hip fracture within 5 years despite fracture risk reduction measures, including fall prevention and osteoporosis pharmacologic treatment. The aim of this study is to assess whether insertion of the Femoral Neck System (Depuy Synthes, West Chester, PA) into the contralateral proximal femur may strengthen the bone and decrease the incidence of contralateral hip fractures.
Materials and methods: ScanIP, an image processing software was used to produce 3-dimensional models of a cadaver femur with the implanted device. Models were meshed and exported to Abaqus for finite element analysis to evaluate the device's ability to reduce stress in the proximal femur. Results were analyzed for element-wise volume and von-Mises stresses.
Results: The implant reduced peak stress and bone failure at all levels of bone quality. Specifically in osteoporotic bone, the implant decreased peak stress by 27%, proximal femur trabecular bone failure by 5% and cortical bone failure by 100% in the femoral neck.
Conclusions: Our results from computer generated finite element analyses indicate that the Femoral Neck System may strengthen an osteoporotic proximal femur in the event of a lateral fall. Further investigation with expanded finite element analysis and cadaveric biomechanical studies are needed to validate these results.
期刊介绍:
Geriatric Orthopaedic Surgery & Rehabilitation (GOS) is an open access, peer-reviewed journal that provides clinical information concerning musculoskeletal conditions affecting the aging population. GOS focuses on care of geriatric orthopaedic patients and their subsequent rehabilitation. This journal is a member of the Committee on Publication Ethics (COPE).