|
|
腰椎棘突间动态稳定系统治疗腰椎管狭窄症的研究进展 |
吴巷, 任莉荣, 舒钧 |
昆明医科大学第二附属医院创伤外科, 云南 昆明 650000 |
|
[1] Fay L Y, Wu J C, Tsai T Y, et al. Dynamic stabilization for degenerative spondylolisthesis: evaluation of radiographic and clinical outcomes[J]. Clin Neurol Neurosurg,2013,115(5):535~541. [2] Ravindra V M, Ghogawala Z. Is there still a role for interspinous spacers in the management of neurogenic claudication[J]. Neurosurg Clin N Am,2017,28(3):321~330. [3] Zhang J X, Jing X W, Cui P, et al. Effectiveness of dynamic fixation coflex treatment for degenerative lumbar spinal stenosis[J]. Exp Ther Med,2018,15(1):667~672. [4] Lee C H, Hyun S J, Kim K J, et al. The efficacy of lumbar hybrid stabilization using the DIAM to delay adjacent segment degeneration: an intervention comparison study with a minimum 2-year follow-up[J]. Neurosurgery,2013,73(2 Suppl Operative):s224~s231, s231~s232. [5] Yeh M Y, Kuo C H, Wu J C, et al. Changes of facet joints after dynamic stabilization: continuous degeneration or slow fusion[J]. World Neurosurg,2018,113:e45~e50. [6] Chen X J, Fan S W. Progress on dynamic neutralization system in treating lumbar degenerative diseases[J]. Zhongguo Gu Shang,2013,26(6):526~529. [7] Xu C, Ni W F, Tian N F, et al. Complications in degenerative lumbar disease treated with a dynamic interspinous spacer (Coflex)[J]. Int Orthop,2013,37(11):2199~2204. [8] Hartmann F, Dietz S O, 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. [9] Tsai K J, Murakami H, Lowery G L, et al. A biomechanical evaluation of an interspinous device (Coflex) used to stabilize the lumbar spine[J].Surg Orthop Adv,2006,15(3):167~172. [10] Kaulhausen T, Siewe J, Eysel P, et al. The role of the inter-/supraspinous ligament complex in stand-alone interspinous process devices: a biomechanical and anatomic study[J].Neurol Surg A Cent Eur Neurosurg,2012,73(2):65~72. [11] Lu K, Liliang P C, Wang H K, et al. Reduction in adjacent-segment degeneration after multilevel posterior lumbar interbody fusion with proximal DIAM implantation[J].Neurosurg Spine,2015,23(2):190~196. [12] Kondrashov D G, Hannibal M, Hsu K Y, et al. Interspinous process decompression with the X-STOP device for lumbar spinal stenosis: a 4-year follow-up study[J].Spinal Disord Tech,2006,19(5):323~327. [13] Bellini C M, Galbusera F, Raimondi M T, et al. Biomechanics of the lumbar spine after dynamic stabilization[J].Spinal Disord Tech,2007,20(6):423~429. [14] Chen C S, Shih S L. Biomechanical analysis of a new lumbar interspinous device with optimized topology[J]. Med Biol Eng Comput,2018. [15] Weinstein J N, Rydevik B L, Rauschning W. Anatomic and technical considerations of pedicle screw fixation[J]. Clin Orthop Relat Res,1992(284):34~46. [16] Trautwein F T, Lowery G L, Wharton N D, et al. Determination of the in vivo posterior loading environment of the Coflex interlaminar-interspinous implant[J]. Spine,2010,10(3):244~251. [17] Bae H W, Davis R J, Lauryssen C, et al. Three-year follow-up of the prospective, randomized, controlled trial of coflex interlaminar stabilization vs instrumented fusion in patients with lumbar stenosis[J]. Neurosurgery,2016,79(2):169~181. [18] Meyer B, Baranto A, Schils F, et al. Percutaneous interspinous spacer vs decompression in patients with neurogenic claudication: an alternative in selected patients[J]. Neurosurgery,2018,82(5):621~629. [19] Lu K, Liliang P C, Wang H K, et al. Reduction in adjacent-segment degeneration after multilevel posterior lumbar interbody fusion with proximal DIAM implantation[J].Neurosurg Spine,2015,23(2):190~196. [20] Marcia S, Hirsch J A, Chandra R V, et al. Midterm clinical and radiologic outcomes after percutaneous interspinous spacer treatment for neurogenic intermittent claudication[J].Vasc Interv Radiol,2015,26(11):1687~1693. [21] Nunley P D, Patel V V, Orndorff D G, et al. Five-year durability of stand-alone interspinous process decompression for lumbar spinal stenosis[J]. Clin Interv Aging,2017,12:1409~1417. [22] Gazzeri R, Galarza M, Neroni M, et al. Failure rates and complications of interspinous process decompression devices: a European multicenter study[J]. Neurosurgical Focus,2015,39(4):E14. [23] Stefanovic I, Radisavljevic M, Stojanov D. Aseptic intrafascial and extrafascial abscesses 10 years after a 2-level DIAM insertion procedure[J].Neurosurg Spine,2015:1~5. [24] Abdel Ghany W, Amer A, Saeed K, et al. Evaluation of interspinous spacer outcomes in degenerative lumbar canal stenosis: clinical study[J]. World Neurosurg,2016,95:556~564. [25] Phan K, Rao P J, Ball J R, et al. Interspinous process spacers versus traditional decompression for lumbar spinal stenosis: systematic review and meta-analysis[J].Spine Surg,2016,2(1):31~40. |
[1] |
鲁驷原, 熊福军, 周劲松, 苏庚洵. 老年退行性腰椎管狭窄症应用全椎板切除脊柱内固定治疗的疗效观察[J]. 河北医学, 2017, 23(9): 1429-1432. |
[2] |
王传恩, 李平, 黄义专, 沈赟, 罗世科. 椎间孔镜BEIS技术治疗腰椎管狭窄症早期疗效研究[J]. 河北医学, 2017, 23(2): 274-277. |
[3] |
刘智鹏, 张伟. 腰椎管狭窄症椎弓根内固定术后深部感染的因素分析及处理措施[J]. 河北医学, 2017, 23(10): 1642-1645. |
|
|
|
|