Finite element analysis of the initial stability of subtalar arthrodesis with double-screw fixation.
- Author:
Zhuang CUI
1
;
Bin YU
;
Xue LI
;
Changpeng XU
;
Jinqi SONG
;
Hanbin OUYANG
;
Xicai DIAO
;
Liguang CHEN
Author Information
- Publication Type:Journal Article
- MeSH: Adult; Ankle; diagnostic imaging; Arthrodesis; methods; Bone Screws; Finite Element Analysis; Humans; Imaging, Three-Dimensional; Internal Fixators; Models, Anatomic; Software; Subtalar Joint; surgery; Tomography, X-Ray Computed
- From: Journal of Southern Medical University 2012;32(11):1588-1591
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVETo assess the optimal configuration of double-screw fixation for subtalar arthrodesis using finite element analysis.
METHODSThree-dimensional finite element double-screw models of subtalar arthrodesis were reconstructed using Mimics 13.0, Geomagic 10.0 and solid works software based on the 3-D images of the volunteer's right foot. The external and internal rotation torques of 4 N·m were applied, and the micromotion at the bone-to-bone interface were measured to evaluate the initial stability of subtalar arthrodesis.
RESULTSA neck screw plus an anterolateral dome screw was the most stable model. The peak micromotion at the fusion site of this fixation configuration were 41.67mnplus;0.49 and 42.64mnplus;0.75 µm in response to the respectively. A neck screw plus a posteromedial dome screw was the least stable model, with peak micromotion at the bone-to-bone interface of 61.76mnplus;1.00 and 62.32mnplus;0.90 µm, respectively.
CONCLUSIONA neck screw plus an anterolateral dome screw is the best fixation configuration while a neck screw plus a posteromedial screw provides the least stability of subtalar arthrodesis. Three-dimensional finite element models allow effective preoperative planning of the screw number and placement.
