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腰椎棘突间非融合技术:Coflex^(TM)与Wallis临床比较 被引量:9

Lumbar interspinous non-fusion techniques:comparison between Coflex^(TM) and Wallis
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摘要 目的评价并比较CoflexTM和Wallis棘突间非融合固定治疗腰椎退行性疾病的近期临床疗效。方法腰椎管狭窄症患者41例,腰椎间盘突出症患者18例,腰椎管狭窄同时伴有腰椎间盘突出症患者34例。43例采用CoflexTM系统棘突间固定患者中单节段41例,双节段2例;50例采用Wallis系统棘突间固定患者中单节段47例,双节段3例。分别采用下腰椎JOA评分系统、Oswestry残疾指数和VAS疼痛评分系统评价术后近期疗效。结果 CoflexTM平均手术时间64.55min,平均术中失血量81.82ml;Wallis平均手术时间82.71min,平均术中失血量89.66ml。术后与术前比较,下腰椎JOA评分、Oswestry残疾指数、VAS疼痛评分均有显著性差异。结论 CoflexTM与Wallis两种棘突间非融合内固定技术治疗腰椎退行性疾病具有良好的近期临床疗效。 Objective To compare the short-term clinical outcome of non-fusion techniques using interspinous implantation CoflexTM and Wallis treatment in patients with lumbar spine degenerative diseases.Methods Forty-one cases of lumbar stenosis,18 of lumbar disc herniation,and 34 of lumbar stenosis with lumbar disc herniation were evaluated.Among the 43 cases receiving CoflexTM implantation,41 had operations in one segment and 2 in 2 segments.In the other 50 cases with Wallis implantation,47 had fixation of 1 segment and 3 had 2 segments fixed.JOA Score,Oswestry Disable Index(ODI) and VAS were used to evaluate the short-term clinical results.Results The average operating time was 64.55 min in CoflexTM implantation with an average blood loss of 81.82 ml.The average operating time was 82.71 min in Wallis implantation,which caused an average blood loss of 89.66 ml.Significant improvements in the JOA Score,ODI and VAS were noted after the operations.Conclusion The two interspinous non-fusion techniques,Coflex and Wallis,produce good short-term clinical outcome in the treatment of lumbar spine degenerative diseases.
作者 刘斌 尹东 王巧民 昌耘冰 詹世强 曾时兴 柯雨洪 王义生 肖丹
机构地区 广东省人民医院 广东省医学科学院骨科
出处 《南方医科大学学报》 CAS CSCD 北大核心 2010年第11期2455-2458,共4页 Journal of Southern Medical University
基金 广东省科技计划项目(2008B030301173)~~
关键词 COFLEX WALLIS 非融合 棘突间固定 腰椎退行性疾病 Coflex Wallis non-fusion interspinous implantation lumbar spine degenerative diseases
分类号 R687.3 [医药卫生—骨科学]
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参考文献14

  • 1Biering-Sorensen F. Low back trouble in general population of 30-, 40, 50-, and 60-year-old men and women[J].Dan Med Bull, 1982, 29: 289-99.
  • 2Lee CK. Accelerated degeneration of the segment adjacent to a lumbar fusion[J]. Spine, 1988, 13: 375-7.
  • 3Schlegel JD, Smith JA, Schleusener RL. Lumber motion segment pathology adjacent to thoracolumbar, lumbar, and lumbosacral fusions[J]. Spine, 1996, 21 : 970-81.
  • 4Glaser J, Stanley M, Sayre H, et al. A 10-year follow-up evaluation of lumbar spine fusion with pedicle screw fixation[J]. Spine, 2003, 28: 1390-5.
  • 5Park P, Garton H J, Gala VC, et al. Adjacent segment disease after lumbar or lumbosacral fusion: Review of literature[J]. Spine, 2004, 29: 1938-44.
  • 6Mayer HM, Korge A. Non-fusion technology in degenerative lumbar spinal disorders: facts, questions, challenges [J]. Eur Spine J, 2002, 11(Suppl 2): S85-91.
  • 7Senegas J, Vital JM, Pointillart V, et al. Long-term actuarial survivorship analysis of an interspinous stabilization system[J]. Eur Spine J, 2007, 16(8): 1279-87.
  • 8王义生,柯雨洪,肖丹,昌耘冰,刘斌,詹世强,郑秋坚.腰椎棘突间稳定器(Wallis)早期疗效分析[J].中国骨科临床与基础研究杂志,2010,2(1):8-11. 被引量:3
  • 9梁春祥,陈克冰,刘少喻,韩国伟,龙厚清,魏富鑫,黄阳亮.Wallis动态稳定系统置入治疗腰椎失稳症的效果[J].中国组织工程研究与临床康复,2010,14(4):609-614. 被引量:3
  • 10Tsai K J, Murakami H, Lowery GL, et al. A biomechanical evaluation of an interspinous device (Coflex) used to stabilize the lumbar spine [J]. J Surg Orthop Adv, 2006, 15(3): 167-72.

二级参考文献54

  • 1Hayashi T, Arizono T, Fujimoto T, et al. Degenerative change in the adjacent segments to the fusion site after posterolateral lumbar fusion with pedicle screw instrumentation a minimum 4-year follow-up [ J]. Fukuoka Igaku Zasshi,2008,99(5) : 107.
  • 2Kumar MN,Jacquot F, Hall H. Long-term follow-up of functional outcomes and radiographic changes at adjacent levels following lumbar spine fusion for degenerative disc disease[J]. Eur Spine J,2001 ;10(4):309.
  • 3Schaeren S,Broger l,Jeanneret B. Minimum four year follow up of spinal stenosis with degenerative spondylolis thesis trealed with decompression and dynamic stabilization[J]. Spine (Phila Pa 1976) ,2008,33(18) :E636.
  • 4Bono CM, Vaccaro AR. lnterspinous process devices in the lumbar spine[J]. J Spinal Disord Tech,2007,20(3) : 255.
  • 5Korovessis P, Papazisis Z, Koureas G, et al. Rigid,semirigid versus dynamic instrumentation for degenerative lumbar spinal stenosis:a correlative radiological and clinical analysis of short term results [J]. Spine (Phila Pa 1976) ,2004,29(7) : 735.
  • 6Zucherman JF, Hsu KY, Hartjen CA,et al. A prospective randomized multicenter study for the treatment of lumbar spinal stenosis with the X STOP interspinous implant: 1-year resuhs[J]. Eur Spine J, 2004, 13(1) :22.
  • 7Richards JC, Majumdar S, Lindsey DP, et al. The treatment mechanism of an interspinous process implant for lumbm neurogenic intermittent claudication [J]. Spine (Phila Pa 1976) ,2005,30(7) :744.
  • 8Wilke HJ, Drumm J, Haussler K, et al. Biomechanical effect of different lumbar interspinous implants on flexibility and intradiscal pressure[J]. Eur Spine J, 2008, 17 (8) :1049.
  • 9Kettler A, Drumm J, Heuer F, et al. Can a modified interspinous spacer prevent instability in axial rotation and lateral bending? A biomechanieal in vitro study resulting Jn a new idea[J]. Clin Biomech (Bristol, Avon), 2008,23 (2): 242.
  • 10Tsai K J, Murakami H, Lowery GL, et al. A biomechanical evaluation of aninterspinous device (Coflex) used to stabilize the lumbar spine[J]. J Surg Orlhop Adv, 2006, 15 (3) :167.

共引文献29

同被引文献109

  • 1迟大明,朱悦.非融合固定在退行性腰椎疾病中的应用[J].中华骨科杂志,2005,25(10):622-625. 被引量:15
  • 2Villarejo F, Carceller F, de la Riva AG, et al. Experience with Coflex interspinous implant [ J ]. Acta Neurochir Suppl,2011,108 : 171-175.
  • 3Pan H, Chen B, Deng LF. Biomechanical effects of the Coflex implantation on the lumbar spine. A nonlinear finite element analysis [ J ]. Saudi Med J ,2010,31 ( 10 ) : 1130-1136.
  • 4Tsai K J, Murakami H, Lowery GL, et al. A biomechanical evaluation of an interspinous device (Coflex) used to stabilize the lumbar spine [ J ]. J Surg Orthop Adv,2006,15 ( 3 ) : 167-172.
  • 5Hartmann F, Dietz SO, Hely H, et al. Biomechanical effect of different interspinous devices on lumbar spinal range of motion under preload conditions [ J ]. Arch Orthop Trauma Surg, 2011, 131 (7) :917-926.
  • 6Trautwein FT, Lowery GL, Wharton ND, et al. Determination of the in vivo posterior loading environment of the Coflex interlaminar- interspinous implant[ J]. Spine J,2010,10( 3 ) :244-251.
  • 7Hartmann F, Dietz SO, Kuhn S, et al. Biomeehanical comparison of an interspinous device and a rigid stabilization on lumbar adjacent segment range of motion[ J]. Acta Chir Orthop Traumatol Cech ,2011,78 (5) :404-409.
  • 8Wilke llJ, Drumm J, Haussler K, et al. Biomechanical effect of different lumbar interspinous implants on flexibility and intradiseal pressure[ J]. Eur Spine J,2008,17 ( 8 ) :1049-1056.
  • 9Lindsey DP, Swanson KE, Fuchs P, et al. The effects of an interspinous implant on the kinematics of the instrumented and adjacent levels in the lumbar spine[ J]. Spine (Phila Pa 1976), 2003,28 ( 19 ) :2192-2197.
  • 10Fuchs PD, Lindsey DP, Hsu KY, et al. The use of an interspinous implant in conjunction with a graded facetectomy procedure[ J] . Spine ( Phila Pa 1976 ), 2005,30 ( 11 ) : 1266- 1274.

引证文献9

二级引证文献30

南方医科大学学报
2010年 第11期

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