中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2013年
17期
3156-3163
,共8页
骨关节植入物%骨与关节综述%椎弓根钉%螺钉%脊柱%内固定%稳定性%内固定植入物%生物力学%置入位置%角度%固定装置
骨關節植入物%骨與關節綜述%椎弓根釘%螺釘%脊柱%內固定%穩定性%內固定植入物%生物力學%置入位置%角度%固定裝置
골관절식입물%골여관절종술%추궁근정%라정%척주%내고정%은정성%내고정식입물%생물역학%치입위치%각도%고정장치
bone and joint implants%review of bone and joint%pedicle screw%screws%spine%internal fixation%stability%internal fixation implants%biomechanics%placement position%angles%fixing device
背景:椎弓根螺钉内固定系统由于具有牢固的三维固定效果、良好的生物力学稳定性以及较好的复位和矫正畸形作用,被广泛用于脊柱外科,但椎弓根螺钉系统松动、折断及螺钉拔出等并发症仍是导致内固定手术失败的主要原因.
目的:分析脊柱内固定植入物椎弓根钉的生物力学及稳定性探索.
方法:应用计算机检索万方、维普和PubMed数据库中1999年1月至2011年12月关于椎弓根钉植入后生物力学评价相关的文章,以“椎弓根钉,脊柱,内固定,稳定性,生物相容性”为关键词进行检索.选择脊柱内固定植入物生物力学及评价相关的文献,同一领域文献则选择近期发表或发表在权威杂志文章.初检得到260篇文献,根据纳入标准选择40篇文章进行综合分析.
结果与结论:要提高椎弓根螺钉系统对脊柱固定的稳定性,可通过改进内固定材料、设计和操作技术以分散固定界面应力,但对螺钉的改进受椎弓根和椎体大小的限制,如何从内固定系统装置上来增强固定效果,有待进一步研究.作者认为椎弓根螺钉植入后的稳定性评价应该结合动物实验和临床研究,包括椎弓根螺钉材质、置入位置、角度、固定装置等因素,还应该针对患者个体化因素进行,即对椎弓根螺钉置入遵循个体化原则,对每一个不同的椎弓根施以不同的置钉入点、方向及螺钉.
揹景:椎弓根螺釘內固定繫統由于具有牢固的三維固定效果、良好的生物力學穩定性以及較好的複位和矯正畸形作用,被廣汎用于脊柱外科,但椎弓根螺釘繫統鬆動、摺斷及螺釘拔齣等併髮癥仍是導緻內固定手術失敗的主要原因.
目的:分析脊柱內固定植入物椎弓根釘的生物力學及穩定性探索.
方法:應用計算機檢索萬方、維普和PubMed數據庫中1999年1月至2011年12月關于椎弓根釘植入後生物力學評價相關的文章,以“椎弓根釘,脊柱,內固定,穩定性,生物相容性”為關鍵詞進行檢索.選擇脊柱內固定植入物生物力學及評價相關的文獻,同一領域文獻則選擇近期髮錶或髮錶在權威雜誌文章.初檢得到260篇文獻,根據納入標準選擇40篇文章進行綜閤分析.
結果與結論:要提高椎弓根螺釘繫統對脊柱固定的穩定性,可通過改進內固定材料、設計和操作技術以分散固定界麵應力,但對螺釘的改進受椎弓根和椎體大小的限製,如何從內固定繫統裝置上來增彊固定效果,有待進一步研究.作者認為椎弓根螺釘植入後的穩定性評價應該結閤動物實驗和臨床研究,包括椎弓根螺釘材質、置入位置、角度、固定裝置等因素,還應該針對患者箇體化因素進行,即對椎弓根螺釘置入遵循箇體化原則,對每一箇不同的椎弓根施以不同的置釘入點、方嚮及螺釘.
배경:추궁근라정내고정계통유우구유뢰고적삼유고정효과、량호적생물역학은정성이급교호적복위화교정기형작용,피엄범용우척주외과,단추궁근라정계통송동、절단급라정발출등병발증잉시도치내고정수술실패적주요원인.
목적:분석척주내고정식입물추궁근정적생물역학급은정성탐색.
방법:응용계산궤검색만방、유보화PubMed수거고중1999년1월지2011년12월관우추궁근정식입후생물역학평개상관적문장,이“추궁근정,척주,내고정,은정성,생물상용성”위관건사진행검색.선택척주내고정식입물생물역학급평개상관적문헌,동일영역문헌칙선택근기발표혹발표재권위잡지문장.초검득도260편문헌,근거납입표준선택40편문장진행종합분석.
결과여결론:요제고추궁근라정계통대척주고정적은정성,가통과개진내고정재료、설계화조작기술이분산고정계면응력,단대라정적개진수추궁근화추체대소적한제,여하종내고정계통장치상래증강고정효과,유대진일보연구.작자인위추궁근라정식입후적은정성평개응해결합동물실험화림상연구,포괄추궁근라정재질、치입위치、각도、고정장치등인소,환응해침대환자개체화인소진행,즉대추궁근라정치입준순개체화원칙,대매일개불동적추궁근시이불동적치정입점、방향급라정.
@@@@BACKGROUND:Pedicle screw fixation system with a solid three-dimensional fixed effect, good biomechanical stability and good reset and correct deformities role, has been widely used in spine surgery. But, pedicle screws loose, broken and screw pul out and other complications are major causes of the failure of fixation within the lead. @@@@OBJECTIVE:To analyze the biomechanics of spinal fixation implant pedicle screw and to explore the stability. @@@@METHODS:A computer-based search was performed on CNKI database and PubMed database from January 1999 to December 2011 for the related articles about biomechanical evaluation of pedicle screw implantation. The key words were“pedicle screw, spine, fixation, stability, biocompatibility”. The articles on the biomechanical evaluation of pedicle screw implantation were selected, and for the articles in the same field, those published recently or in the authorized journals were selected. There were 260 articles after the initial survey. Then, according to the inclusion criteria, 40 articles were included for the aggregate analysis. @@@@RESULTS AND CONCLUSION:We can improve fixation materials, design and operate techniques to diversify the fixed interface stress, thus improve the stability of pedicle screw spinal fixation. But, with the size limitation of the pedicle and vertebral body, how to enhance the fixation effect from the fixation system instal ations needs further study. The authors suggest that evaluation of the stability of pedicle screws should be combined with animal experiments and clinical studies, including pedicle screw material, placement position, angle, fixtures and other factors, and the individual factors in patients should also be considered, that is fol ow the individual principle during pedicle screw placement. Every pedicles should be imposed with different enter-point, directions and screws.
