骨水泥型短柄的生物力学：一项关于初始稳定性和最大骨折负荷的体外对比研究。

Biomechanics of a cemented short stem: a comparative in vitro study regarding primary stability and maximum fracture load.

作者信息

Freitag Tobias, Kutzner Karl Philipp, Bieger Ralf, Reichel Heiko, Ignatius Anita, Dürselen Lutz

机构信息

Department of Orthopaedic Surgery, University of Ulm, Oberer Eselsberg 45, 89081, Ulm, Germany.

Department of Orthopaedic Surgery and Traumatology, St. Josefs Hospital Wiesbaden, Beethovenstr. 20, 65189, Wiesbaden, Germany.

出版信息

Arch Orthop Trauma Surg. 2021 Oct;141(10):1797-1806. doi: 10.1007/s00402-021-03843-x. Epub 2021 Mar 23.

DOI:10.1007/s00402-021-03843-x

PMID:33755800

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8437915/

Abstract

PURPOSE

In total hip arthroplasty, uncemented short stems have been used more and more frequently in recent years. Especially for short and curved femoral implants, bone-preserving and soft tissue-sparing properties are postulated. However, indication is limited to sufficient bone quality. At present, there are no curved short stems available which are based on cemented fixation.

METHODS

In this in vitro study, primary stability and maximum fracture load of a newly developed cemented short-stem implant was evaluated in comparison to an already well-established cemented conventional straight stem using six pairs of human cadaver femurs with minor bone quality. Primary stability, including reversible micromotion and irreversible migration, was assessed in a dynamic material-testing machine. Furthermore, a subsequent load-to-failure test revealed the periprosthetic fracture characteristics.

RESULTS

Reversible and irreversible micromotions showed no statistical difference between the two investigated stems. All short stems fractured under maximum load according to Vancouver type B3, whereas 4 out of 6 conventional stems suffered a periprosthetic fracture according to Vancouver type C. Mean fracture load of the short stems was 3062 N versus 3160 N for the conventional stems (p = 0.84).

CONCLUSION

Primary stability of the cemented short stem was not negatively influenced compared to the cemented conventional stem and no significant difference in fracture load was observed. However, a clear difference in the fracture pattern has been identified.

摘要

目的

在全髋关节置换术中，近年来非骨水泥短柄假体的使用越来越频繁。特别是对于短而弯曲的股骨植入物，其具有保留骨质和软组织的特性。然而，其适应证仅限于骨质良好的情况。目前，尚无基于骨水泥固定的弯曲短柄假体。

方法

在这项体外研究中，使用六对骨质较差的人类尸体股骨，将一种新开发的骨水泥短柄植入物与一种已成熟的骨水泥传统直柄植入物进行比较，评估其初始稳定性和最大骨折负荷。在动态材料试验机中评估初始稳定性，包括可逆微动和不可逆移位。此外，随后的失效载荷测试揭示了假体周围骨折的特征。

结果

两种研究的柄在可逆和不可逆微动方面无统计学差异。所有短柄在最大负荷下均根据温哥华B3型发生骨折，而6个传统柄中有4个根据温哥华C型发生假体周围骨折。短柄的平均骨折负荷为3062 N，传统柄为3160 N（p = 0.84）。

结论

与骨水泥传统柄相比，骨水泥短柄的初始稳定性没有受到负面影响，且在骨折负荷方面未观察到显著差异。然而，已确定骨折模式存在明显差异。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8ca6/8437915/66c33d527b28/402_2021_3843_Fig1_HTML.jpg

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骨水泥型短柄的生物力学：一项关于初始稳定性和最大骨折负荷的体外对比研究。

Biomechanics of a cemented short stem: a comparative in vitro study regarding primary stability and maximum fracture load.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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