Biomechanical comparisons of different diagonal screw designs in a novel embedded calcaneal slide plate

Medial displacement calcaneal osteotomy (MDCO) is frequently used for the surgical correction of flatfoot. This study aims to investigate the biomechanical effect of the different diagonal screw design on a novel-designed embedded calcaneal plate for MDCO using finite element analysis (FEA), mechani...

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Bibliographic Details
Published in:Journal of the Chinese Medical Association 2021-11, Vol.84 (11), p.1038-1047
Main Authors: Wang, Shun-Ping, Lai, Wei-Yi, Lin, Yi-Yin, Lin, Tzu-Wei, Tsai, Ming-Tzu, Yang, Yi-Ping, Hsu, Cheng-En, Chen, Chao-Ping, Lee, Cheng-Hung, Su, Kuo-Chih
Format: Article
Language:English
Subjects:
Biomechanical Phenomena
Bone Plates
Bone Screws
Finite Element Analysis
Fracture Fixation, Internal - methods
Heel Spur - surgery
Humans
Osteotomy - methods
Weight-Bearing
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Summary:Medial displacement calcaneal osteotomy (MDCO) is frequently used for the surgical correction of flatfoot. This study aims to investigate the biomechanical effect of the different diagonal screw design on a novel-designed embedded calcaneal plate for MDCO using finite element analysis (FEA), mechanical test and digital image correlation (DIC) measurement. Four groups according to the varied implanted plate were set as control group (Group 1), non-diagonal screw (Group 2), one-diagonal screw (Group 3), and two-diagonal screws groups (Group 4). For FEA, A 450 N load was applied to on the anterior process of the calcaneus from top to bottom. Observational indices included the stress on the cortical and cancellous bone of the calcaneus surrounding the implant, the plate itself as well as screws, and the displacement of the overall structure. In addition, this study also used in vitro biomechanics test to investigate the stiffness of the structure after implantation, and used DIC to observe the displacement of the calcaneus structure after external force. Under a simulated load in FEA, there are significant overall instability and high stress concentration on the calcaneal surrounding host bone and the plate/screws system, respectively, in group 2 compared with other groups. Regard to the mechanical testing with DIC system, significant increased rotation stability, maximum force and stiffness with the addition of diagonal screws. In comparison to Group 2, the increase of 112% and 157% in maximum force as well as 104% and 176% in stiffness were found in Group 3 and 4, respectively. For reducing stress concentration and enhancing overall stability, more than one-diagonal screw design is recommended and two-diagonal screws design will be superior. This study provided biomechanical references for further calcaneal implants design to prevent clinical failure after MDCO.
ISSN:1726-4901
1728-7731
DOI:10.1097/JCMA.0000000000000625