[1] Kovacs FM, Urrútia G, Alarcón JD. Surgery versus conservative treatment for symptomatic lumbar spinal stenosis: a systematic review of randomized controlled trials. Spine (Phila Pa 1976). 2011;36(20): E1335-1351.[2] Siddiqui M, Smith FW, Wardlaw D. One-year results of X Stop interspinous implant for the treatment of lumbar spinal stenosis. Spine (Phila Pa 1976). 2007;32(12): 1345-1348.[3] Kaner T, Ozer AF. Dynamic stabilization for challenging lumbar degenerative diseases of the spine: a review of the literature. Adv Orthop. 2013;2013:753470.[4] Sénégas J, Vital JM, Pointillart V, et al. Long-term actuarial survivorship analysis of an interspinous stabilization system. Eur Spine J. 2007;16(8):1279-1287.[5] Richards JC, Majumdar S, Lindsey DP, et al. The treatment mechanism of an interspinous process implant for lumbar neurogenic intermittent claudication. Spine (Phila Pa 1976). 2005;30(7): 744-749.[6] Kabir SM, Gupta SR, Casey AT. Lumbar interspinous spacers: a systematic review of clinical and biomechanical evidence. Spine (Phila Pa 1976). 2010;35(25): E1499-1506.[7] 周大鹏. Wallis与X-stop治疗腰椎间盘突出症疗效及对腰椎功能影响的对比研究[D]. 泰山医学院,2013.[8] Christie SD, Song JK, Fessler RG. Dynamic interspinous process technology. Spine (Phila Pa 1976). 2005;30(16 Suppl): S73-78.[9] Bono CM, Vaccaro AR. Interspinous process devices in the lumbar spine. J Spinal Disord Tech. 2007;20(3):255-261.[10] Talwar V, Lindsey DP, Fredrick A, et al. Insertion loads of the X STOP interspinous process distraction system designed to treat neurogenic intermittent claudication. Eur Spine J. 2006;15(6):908-912.[11] Zucherman JF, Hsu KY, Hartjen CA, et al. A prospective randomized multi-center study for the treatment of lumbar spinal stenosis with the X STOP interspinous implant: 1-year results. Eur Spine J. 2004;13(1): 22-31.[12] Sénégas J. Mechanical supplementation by non-rigid fixation in degenerative intervertebral lumbar segments: the Wallis system. Eur Spine J. 2002;11 Suppl 2: S164-169.[13] 王良意. 腰椎棘突间稳定装置的应用及并发症的进展[J]. 实用骨科杂志, 2014,20(2): 137-141.[14] Davis R, Auerbach JD, Bae H, et al. Can low-grade spondylolisthesis be effectively treated by either coflex interlaminar stabilization or laminectomy and posterior spinal fusion? Two-year clinical and radiographic results from the randomized, prospective, multicenter US investigational device exemption trial: clinical article. J Neurosurg Spine. 2013;19(2): 174-184.[15] 杜敬曾,齐强,陈仲强. 腰椎棘突间撑开系统研究进展[J]. 中国脊柱脊髓杂志,2009,19(11): 870-873.[16] 王洪立,姜建元. 腰椎棘突间分离装置研究进展[J]. 中国脊柱脊髓杂志, 2008,18(8): 631-634.[17] Hrabálek L, Machác J, Vaverka M. The DIAM spinal stabilisation system to treat degenerative disease of the lumbosacral spine. Acta Chir Orthop Traumatol Cech. 2009;76(5):417-423.[18] Palmer S, Mahar A, Oka R. Biomechanical and radiographic analysis of a novel, minimally invasive, extension-limiting device for the lumbar spine. Neurosurg Focus. 2007;22(1): E4.[19] Fabrizi AP, Maina R, Schiabello L. Interspinous spacers in the treatment of degenerative lumbar spinal disease: our experience with DIAM and Aperius devices. Eur Spine J. 2011;20 Suppl 1: S20-26.[20] Miller LE, Block JE. Interspinous spacer implant in patients with lumbar spinal stenosis: preliminary results of a multicenter, randomized, controlled trial. Pain Res Treat. 2012;2012: 823509.[21] Loguidice V, Bini W, Shabat S, et al. Rationale, design and clinical performance of the Superion® Interspinous Spacer: a minimally invasive implant for treatment of lumbar spinal stenosis. Expert Rev Med Devices. 2011;8(4): 419-426.[22] Kantelhardt SR, Török E, Gempt J, et al. Safety and efficacy of a new percutaneously implantable interspinous process device. Acta Neurochir(Wien). 2010;152(11): 1961-1967.[23] 申洪全,汪洋,柯珍勇. 腰椎棘突间分离装置应用进展[J]. 现代医药卫生, 2014,30(8): 1184-1187.[24] 万宗淼. X-Stop棘突间撑开器对老年腰椎管狭窄症病人手术节段和邻近节段脊椎的三维运动生物力学分析及临床疗效评价[D]. 中南大学,2011.[25] Ilharreborde B, Shaw MN, Berglund LJ, et al. Biomechanical evaluation of posterior lumbar dynamic stabilization: an in vitro comparison between Universal Clamp and Wallis systems. Eur Spine J. 2011;20(2): 289-296.[26] Tsai KJ, Murakami H, Lowery GL, 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.[27] Park SW, Lim TJ, Park J. A biomechanical study of the instrumented and adjacent lumbar levels after In-Space interspinous spacer insertion. J Neurosurg Spine.2010;12(5): 560-569.[28] Hartmann F, Dietz SO, Hely H, et al. Biomechanical effect of different interspinous devices on lumbar spinal range of motion under preload conditions. Arch Orthop Trauma Surg. 2011;131(7): 917-926.[29] Wan Z, Wang S, Kozánek M, et al. Biomechanical evaluation of the X-Stop device for surgical treatment of lumbar spinal stenosis. J Spinal Disord Tech. 2012;25(7): 374-378.[30] 徐建平,易红蕾,李明,等. Wallis棘突间动态稳定系统对缓解腰椎融合术后邻近节段退变的临床疗效分析[J].中国骨伤,2013,26(12):1005-1009.[31] Zhou D, Nong LM, DU R, et al. Effects of interspinous spacers on lumbar degenerative disease. Exp Ther Med. 2013;5(3): 952-956.[32] Surace MF, Fagetti A, Fozzato S, et al. Lumbar spinal stenosis treatment with Aperius perclid interspinous system. Eur Spine J. 2012;21 Suppl 1: S69-74.[33] Marcia S, Hirsch JA, Chandra RV, 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.e1-2.[34] Hirsch C, Breque C, Ragot S, et al. Biomechanical study of dynamic changes in L4-L5 foramen surface area in flexion and extension after implantation of four interspinous process devices. Orthop Traumatol Surg Res. 2015;101(2): 215-219.[35] 姚庆强,王黎明,蒋纯志,等. 非融合棘突间撑开器治疗腰椎早期退变性腰痛的三维有限元分析[J]. 中国骨与关节损伤杂志,2008,23(4): 292-295.[36] Swanson KE, Lindsey DP, Hsu KY, et al.The effects of an interspinous implant on intervertebral disc pressures. Spine (Phila Pa 1976). 2003; 28(1): 26-32.[37] Lafage V, Gangnet N, Sénégas J, et al. New interspinous implant evaluation using an in vitro biomechanical study combined with a finite-element analysis. Spine (Phila Pa 1976). 2007;32(16): 1706-1713.[38] 陈肇辉. 腰椎棘突间撑开装置的三维有限元分析及临床应用研究[D]. 第二军医大学,2010.[39] 王乃国. 腰椎棘突间动力固定的三维有限元分析和前瞻性临床研究[D]. 中国协和医科大学,2010.[40] Lazaro BC, Brasiliense LB, Sawa AG, et al. Biomechanics of a novel minimally invasive lumbar interspinous spacer: effects on kinematics, facet loads, and foramen height. Neurosurgery. 2010;66(3 Suppl Operative): 126-132; discussion 132-133.[41] Erbulut DU, Zafarparandeh I, Hassan CR, et al. Determination of the biomechanical effect of an interspinous process device on implanted and adjacent lumbar spinal segments using a hybrid testing protocol: a finite-element study. J Neurosurg Spine. 2015;23(2): 200-208.[42] Nishida K, Doita M, Kakutani K, et al. Development of percutaneously insertable/removable interspinous process spacer for treatment of posture-dependent lumbar spinal-canal stenosis: preclinical feasibility study using porcine model. Eur Spine J. 2012;21(6): 1178-1185.[43] Puzzilli F, Gazzeri R, Galarza M, et al. Interspinous spacer decompression (X-STOP) for lumbar spinal stenosis and degenerative disk disease: a multicenter study with a minimum 3-year follow-up. Clin Neurol Neurosurg. 2014;124: 166-174.[44] Kuchta J, Sobottke R, Eysel P, et al. Two-year results of interspinous spacer (X-Stop) implantation in 175 patients with neurologic intermittent claudication due to lumbar spinal stenosis. Eur Spine J. 2009;18(6): 823-829.[45] Pan B, Zhang ZJ, Lu YS, et al. Experience with the second-generation Wallis interspinous dynamic stabilization device implanted in degenerative lumbar disease: a case series of 50 patients. Turk Neurosurg. 2014;24(5): 713-719.[46] Bae HW, Davis RJ, 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. Neurosurgery. 2016;79(2): 169-181.[47] Errico TJ, Kamerlink JR, Quirno M, et al. Survivorship of coflex Interlaminar-Interspinous Implant. SAS J. 2009;3(2): 59-67.[48] Ramesh A, Lyons F, Kelleher M. Aperius interspinous device for degenerative lumbar spinal stenosis: a review. Neurosurg Rev. 2016; 39(2):197-205; discussion 205.[49] Zaveri GR, Mehta SS. Surgical treatment of lumbar tuberculous spondylodiscitis by transforaminal lumbar interbody fusion (TLIF) and posterior instrumentation. J Spinal Disord Tech. 2009;22(4): 257-262.[50] Beyer F, Yagdiran A, Neu P, et al. Percutaneous interspinous spacer versus open decompression: a 2-year follow-up of clinical outcome and quality of life. Eur Spine J. 2013;22(9): 2015-2021.[51] Epstein NE. A review of interspinous fusion devices: High complication, reoperation rates, and costs with poor outcomes. Surg Neurol Int. 2012; 3:7.[52] Gazzeri R, Galarza M, Alfieri A. Controversies about interspinous process devices in the treatment of degenerative lumbar spine diseases: past, present, and future. Biomed Res Int. 2014;2014: 975052.[53] Wu AM, Zhou Y, Li QL, et al. Interspinous spacer versus traditional decompressive surgery for lumbar spinal stenosis: a systematic review and meta-analysis. PLoS One. 2014;9(5): e97142.[54] Hong P, Liu Y, Li H. Comparison of the efficacy and safety between interspinous process distraction device and open decompression surgery in treating lumbar spinal stenosis: a meta analysis. J Invest Surg. 2015;28(1): 40-49.[55] Moojen WA, Arts MP, Bartels RH, et al. Effectiveness of interspinous implant surgery in patients with intermittent neurogenic claudication: a systematic review and meta-analysis. Eur Spine J. 2011;20(10): 1596-1606. |