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Evaluation of a Porous Bioabsorbable Interbody Mg-Zn Alloy Cage in a Goat Cervical Spine Model  期刊论文  

  • 编号:
    a8f69612-47dd-4b7a-aec3-4d4cc31c6f96
  • 作者:
  • 语种:
    English
  • 期刊:
    BIOMED RESEARCH INTERNATIONAL ISSN:2314-6133 2018 年
  • 收录:
  • 摘要:

    Purpose. Bioabsorbable Mg-based implants were previously assessed due to their intrinsic advantages, but Mg-based cage related research is limited. The specific blood supply and stress of the intervertebral environment can affect the function of Mg-based implants. The objective of this study was to investigate the performance of a bioabsorbable Mg-Zn alloy cage in anterior cervical discectomy and fusion (ACDF) and evaluate the control of degradation of the Mg-Zn cage surfacemodified by microarc oxidation (MAO) technology containing Si under an intervertebral microenvironment. Methods. Twenty-four goats were divided into four groups according to the experimental period and all underwent ACDF at C2-3 and C4-5 with porous Mg-Zn cage covered with a MAO/Si-containing coating in one intervertebral space and with autologous iliac bone in another space. After 3, 6, 12, or 24 weeks after operation, the cervical spine specimens were harvested to evaluate the biocompatibility, fusion status, and degradation conditions using blood analysis, radiology, biomechanical testing, histology, andmicro-CT. Results. The Mg-Zncages showed ideal biocompatibility and biomechanical characterization; however, the fusion state, as evaluated with radiology and histology, was not acceptable. Modified by the MAO/Si-containing coating, the degradation rate of the Mg-Zn cages was controllable but slower than expected. Conclusion. MAO/Si-containing coating Mg-Zn alloy cages demonstrated excessive control of degradation and fusion failure after 24 weeks postoperatively. We conclude that further studies should be designed to improve the using of Mg-based materials at the intervertebral space.

  • 推荐引用方式
    GB/T 7714:
    Xu Haocheng,Zhang Fan,Wang Hongli, et al. Evaluation of a Porous Bioabsorbable Interbody Mg-Zn Alloy Cage in a Goat Cervical Spine Model [J].BIOMED RESEARCH INTERNATIONAL,2018.
  • APA:
    Xu Haocheng,Zhang Fan,Wang Hongli,Geng Fang,&Jiang Jianyuan.(2018).Evaluation of a Porous Bioabsorbable Interbody Mg-Zn Alloy Cage in a Goat Cervical Spine Model .BIOMED RESEARCH INTERNATIONAL.
  • MLA:
    Xu Haocheng, et al. "Evaluation of a Porous Bioabsorbable Interbody Mg-Zn Alloy Cage in a Goat Cervical Spine Model" .BIOMED RESEARCH INTERNATIONAL(2018).
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