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人体颈椎椎弓根钉与侧块钉轴向和切线方向生物力学研究以及与椎体骨密度相关性分析(英文) 被引量:2

BIOMECHANICAL STUDY OF PEDICLE SCREWS VERSUS LATERAL MASS SEREWS IN THE MIDDLE AND LOWER CERVICAL SPINE
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摘要 目的 研究中下颈椎椎弓根钉和侧块钉的固定强度与骨密度的相关性。方法 解离C3 ~C7骨块 12 0个随机分为两组 ,测量每个椎体骨的松质骨密度 ,同一节段椎体随机配对置入椎弓根和侧块螺钉 ,在位移控制下分别测量位移控制下的平均最大拔出阻力和压力控制下的切向弹性与永久位移。结果 椎弓根钉的轴向平均最大拔出阻力明显高于侧块钉 ,切向弹性和固定位移则刚好相反 (均P <0 .0 1) ,在椎体松质骨密度 <12 0mgHA/ml时椎弓根钉和侧块钉的轴向拔出阻力与其呈显著正相关 (P <0 .0 1) ,骨密度 >12 0mg/ml HA时二者无相关性 ,而切线方向的永久位移和弹性位移与骨密度始终呈负相关。结论 椎弓根钉内固定较侧块钉具有更为优越的生物力学强度 ,二者与椎体松质骨密度有显著相关性。 Objective:To analyze the fixation strength of pedicle screws versus lateral mass screws in the milddle and lower cervical spine and the correlation to vertebral bone mineral density.Methods:One hundred and six disarticulated human verebrae(C 3~C 7)were evaluated with computed tomography to determine vertebral bone mineral density.Pedicle screws and lateral mass screws were inserted to the left and right at random.Screws were loaded either axially strictly longitudinal to failure or in a coronal plane strictly perpendicular to the logitudinal axis,the strengths and displacements were recorded.The clinical application was also estimated.Results:Cervical pedicle screws demonstrated a significantly higher resistance to pull-out force than did lateral mass screws(P<0.01),but the average tangential elastic and permanent displacement was adverse(P<0.01).If bone mineral density was <120mg hydroxyapatite/ml, the correlation was significant(P<0.01) .The clinical practices were nice.Conclusions:Pedicle screws were beneficial for instrumentation of the cervical spine, but the more accurate skills are to need.
作者 吴广森 靳安民 袁岱军 于博 吴玉鹏
机构地区 第一军医大学珠江医院脊柱骨病科 第一军医大学解剖学教研室
出处 《中国现代医学杂志》 CAS CSCD 2003年第20期5-8,共4页 China Journal of Modern Medicine
关键词 颈椎 椎弓根钉 侧块钉 生物力学 骨密度 Cervical Spine Pedicle Screw Lateral Mass Screw Biomechanics
分类号 R318.01 [医药卫生—生物医学工程]
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参考文献12

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同被引文献29

  • 1吴增晖,尹庆水,马向阳,夏虹,章凯,昌耘冰,刘景发.后路寰枢椎椎弓根钉板固定融合治疗上颈椎不稳[J].中国脊柱脊髓杂志,2004,40(10):591-593. 被引量:36
  • 2杨惠林,唐天驷,朱国良,陈荣发,洪天禄,许立,郑祖根,王以进.钉杆角弓根内固定系统治疗胸腰椎骨折的研究[J].中华骨科杂志,1995,15(9):570-572. 被引量:91
  • 3胡勇,杨述华,谢辉,徐荣明,校佰平,马维虎,周雷杰.颈椎弓根螺钉置钉并发症原因分析及预防[J].中国骨伤,2006,19(11):645-647. 被引量:4
  • 4裴国献,张元智.数字骨科学:一门骨科学新分支的萌生[J].中华创伤骨科杂志,2007,9(7):601-604. 被引量:70
  • 5Abumi K, Kaneda K. Pedicle screw fixation for nontraumatic lesion of the cervical spine. Spine, 1997, 22:1853-1863.
  • 6Resnick DK, Benzel EC. C1- C2 pedicle screw fixation with rigid cantilever beam construct:case report and technical note. Neurosurg,2002,50(2) :426 - 428.
  • 7Ebraheim N, Rollins JR Jr, Xu R, et al. Anatomic consideration of C2 pedicle screw placement. Spine, 1996, 21(6):691 - 695.
  • 8Howington JU, Kluse JJ, Awasthi D. Surgical anatomy of the C2 pedicle.J Neurosurg. 2001,95(1 Spine):88-92.
  • 9Richter M, Schmidt R, Claces L, et al. Posterior atlantoaxial fixation biomechanical in vitro comparison of six different techniques. Spine,2002,27(16):1724-1732.
  • 10Melcher liP, Puttlitz CM, Kleinstueck FS,et al. Biomechanical testing of Posterior atlantoaxial fixation techniques. Spine, 2002, 27(22): 2435-2440.

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中国现代医学杂志
2003年 第20期

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