旋转铰链膝关节比约束性髁膝关节置换导致更低的骨-植入物界面应力。

Rotating hinge knee causes lower bone-implant interface stress compared to constrained condylar knee replacement.

机构信息

Orthopaedic Biomechanics Laboratory, Sunnybrook Research Institute, 2075 Bayview Avenue, Toronto, ON, M4N 3M5, Canada.

Department of Mechanical and Industrial Engineering, Ryerson University, 350 Victoria Street, Toronto, ON, M5B 2K3, Canada.

出版信息

Knee Surg Sports Traumatol Arthrosc. 2019 Apr;27(4):1224-1231. doi: 10.1007/s00167-018-5054-8. Epub 2018 Jul 23.

DOI:10.1007/s00167-018-5054-8

PMID:30039293

Abstract

PURPOSE

To compare the stresses at bone-arthroplasty interface of constrained and semi-constrained knee prostheses, using the finite element (FE) method as a predictor of the survivorship of the implants.

METHODS

Three-dimensional FE models of the knee implanted with rotating hinge (RHK) and legacy constrained condylar (LCCK) prostheses were generated to study the loads and stresses for two situations: medial- and lateral collateral ligament deficiencies in full extension.

RESULTS

On average, the shear stress developed at bone-implant interface dropped from 16.9 to 13.7 MPa (18.9%), and the interface von Mises stress lowered from 37.6 to 30.2 MPa (19.6%) in RHK compared to those in LCCK prostheses. RHK design also resulted in a more uniform stress distribution at the interfaces in both femur and tibia. The average polyethylene liner stress dropped from 9.6 to 2.6 MPa (a 72.7% decrease) in RHK design when compared to that in LCCK design.

CONCLUSION

The more uniform interface stress suggests fewer density changes at the periprosthetic regions due to bone remodelling. Moreover, the lower polyethylene stresses are likely to reduce wear and damage. These findings reveal that the RHK design may have more favorable mechanical features compared to LCCK design in full extension boundary conditions, implying a potentially better survivorship. However, the findings should be interpreted cautiously as other configurations were not investigated.

摘要

目的

通过有限元（FE）方法预测植入物的存活率，比较约束型和半约束型膝关节假体的骨-假体界面的应力。

方法

为研究两种情况下（完全伸展时内侧和外侧副韧带缺失）的负荷和应力，生成了植入旋转铰链（RHK）和传统约束髁（LCCK）假体的膝关节三维 FE 模型。

结果

与 LCCK 假体相比，RHK 假体的骨-假体界面的剪切应力平均从 16.9 降至 13.7 MPa（18.9%），界面 von Mises 应力从 37.6 降至 30.2 MPa（19.6%）。RHK 设计还导致股骨和胫骨界面的应力分布更加均匀。与 LCCK 设计相比，RHK 设计的聚乙烯衬垫的平均应力从 9.6 降至 2.6 MPa（减少 72.7%）。

结论

界面更均匀的应力表明，由于骨重塑，假体周围区域的密度变化较少。此外，较低的聚乙烯应力可能会减少磨损和损坏。这些发现表明，在完全伸展的边界条件下，与 LCCK 设计相比，RHK 设计可能具有更有利的力学特性，这意味着更好的存活率。然而，由于未研究其他配置，因此应谨慎解释这些发现。

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旋转铰链膝关节比约束性髁膝关节置换导致更低的骨-植入物界面应力。

Rotating hinge knee causes lower bone-implant interface stress compared to constrained condylar knee replacement.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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