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Biomechanical comparison of four types of instrumentation constructs for revision surgery in lumbar adjacent segment disease: A finite element study

Different constructs are applied in revision surgery (RS) for adjacent segment disease (ASD) aiming to further decompress and fixate the affected segment(s) in two ways: replacing or preserving the primary implants. This study aimed to compare the biomechanical properties of four constructs with dif...

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Bibliographic Details
Published in:Computers in biology and medicine 2021-07, Vol.134, p.104477-104477, Article 104477
Main Authors: Tan, Quan-chang, Liu, Zi-xuan, Zhao, Yan, Huang, Xin-yi, Bai, Hao, Yang, Zhao, Zhao, Xiong, Du, Cheng-fei, Lei, Wei, Wu, Zi-xiang
Format: Article
Language:English
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Summary:Different constructs are applied in revision surgery (RS) for adjacent segment disease (ASD) aiming to further decompress and fixate the affected segment(s) in two ways: replacing or preserving the primary implants. This study aimed to compare the biomechanical properties of four constructs with different configurations. An T12-L5 finite element (FE) model was constructed and validated. Primary surgery was performed at L4-L5 and instrumented from L3 to L5. Thereafter, RS was undertook by decompressing L2-L3 and fixated with implant-replacing construct A, or implant-preserving construct B, C or D. Range of motion (ROM) and intervertebral disc pressure (IDP) were compared. Maximum von Mises stress on the rods between Construct A and B was evaluated. An obvious reduction of ROM was observed when the FE model was instrumented with four constructs respectively. The overall changing characteristics of ROM were approximately identical among four constructs. The changing characteristic of IDP among four constructs was similar. The degree of IDP reduction of Construct B was comparable to Construct A, while that of Construct C was comparable to Construct D. Maximum von Mises stress on the rods between Construct A and B indicated that no stress concentration was recorded at the locking part of the connector rod. The biomechanics of implant-preserving constructs were comparable to the traditional implant-replacing construct. The location of side-by-side connector could not affect the stability of Construct C and D. Construct B might be an optimal choice in RS for less dissection, less complication and more convenience in manipulation. •RS for ASD can be performed with replacing or preserving the primary implants.•Mechanical properties of implant-replacing or -preserving constructs were compared.•Implant-replacing and -preserving constructs provide well spinal stability in RS.•A new connecter-rod construct might be an optimal choice in RS for ASD.
ISSN:0010-4825
1879-0534
DOI:10.1016/j.compbiomed.2021.104477