髓内钉固定下胫距跟融合术初始刚度的生物力学评估

Biomechanical evaluation of primary stiffness of tibiotalocalcaneal fusion with intramedullary nails.

作者信息

Mückley Thomas, Eichorn Stephan, Hoffmeier Konrad, von Oldenburg Geert, Speitling Andreas, Hoffmann Gunther O, Bühren Volker

机构信息

University Hospital Jena, Department of Trauma, Hand and Reconstructive Surgery, Erlanger Allee 101, Jena, 07747, Germany.

出版信息

Foot Ankle Int. 2007 Feb;28(2):224-31. doi: 10.3113/FAI.2007.0224.

DOI:10.3113/FAI.2007.0224

PMID:17296144

Abstract

BACKGROUND

Intramedullary implants are being used with increasing frequency for tibiotalocalcaneal fusion (TTCF). Clinically, the question arises whether intramedullary (IM) nails should have a compression mode to enhance biomechanical stiffness and fusion-site compression. This biomechanical study compared the primary stability of TTCF constructs using compressed and uncompressed retrograde IM nails and a screw technique in a bone model.

METHODS

For each technique, three composite bone models were used. The implants were a Biomet nail (static locking mode and compressed mode), a T2 femoral nail (compressed mode); a prototype IM nail 1 (PT1, compressed mode), a prototype IM nail 2 (PT2, dynamic locking mode and compressed mode), and a three-screw construct. The compressed contact surface of each construct was measured with pressure-sensitive film and expressed as percent of the available fusion-site area. Stiffness was tested in dorsiflexion and plantarflexion (D/P), varus and valgus (V/V), and internal rotation and external rotation (I/E) (20 load cycles per loading mode).

RESULTS

Mean contact surfaces were 84.0 +/- 6.0% for the Biomet nail, 84.0 +/- 13.0% for the T2 nail, 70.0 +/- 7.2% for the PTI nail, and 83.5 +/- 5.5% for the compressed PT2 nail. The greatest primary stiffness in D/P was obtained with the compressed PT2, followed by the compressed Biomet nail. The dynamically locked PT2 produced the least primary stiffness. In V/V, PT1 had the (significantly) greatest primary stiffness, followed by the compressed PT2. The statically locked Biomet nail and the dynamically locked PT2 had the least primary stiffness in V/V. In I/E, the compressed PT2 had the greatest primary stiffness, followed by the PT1 and the T2 nails, which did not differ significantly from each other. The dynamically locked PT2 produced the least primary stiffness. The screw construct's contact surface and stiffness were intermediate.

CONCLUSIONS

The IM nails with compression used for TTCF produced good contact surfaces and primary stiffness. They were significantly superior in these respects to the uncompressed nails and the screw construct. The large contact surfaces and great primary stiffness provided by the IM nails in a bone model may translate into improved union rates in patients who have TTCF.

摘要

背景

髓内植入物在胫距跟融合术（TTCF）中的应用频率日益增加。临床上，出现了髓内（IM）钉是否应采用加压模式以增强生物力学刚度和融合部位加压的问题。本生物力学研究在骨模型中比较了使用加压和未加压逆行IM钉及螺钉技术的TTCF结构的初始稳定性。

方法

每种技术使用三个复合骨模型。植入物包括一枚Biomet钉（静态锁定模式和加压模式）、一枚T2股骨钉（加压模式）、一枚原型IM钉1（PT1，加压模式）、一枚原型IM钉2（PT2，动态锁定模式和加压模式）以及一个三螺钉结构。使用压敏膜测量每个结构的加压接触面，并表示为可用融合部位面积的百分比。在背屈和跖屈（D/P）、内翻和外翻（V/V）以及内旋和外旋（I/E）（每种加载模式20个加载循环）下测试刚度。

结果

Biomet钉的平均接触面为84.0±6.0%，T2钉为84.0±13.0%，PTI钉为70.0±7.2%，加压PT2钉为83.5±5.5%。在D/P中，加压PT2获得的初始刚度最大，其次是加压Biomet钉。动态锁定的PT2产生的初始刚度最小。在V/V中，PT1具有（显著）最大的初始刚度，其次是加压PT2。静态锁定的Biomet钉和动态锁定的PT2在V/V中的初始刚度最小。在I/E中，加压PT2具有最大的初始刚度，其次是PT1和T2钉，它们之间无显著差异。动态锁定的PT2产生的初始刚度最小。螺钉结构的接触面和刚度处于中间水平。