一期多节段后柱截骨融合及术前 halo-gravity 牵引可能比脊柱截骨术更能安全有效地矫正复杂脊柱畸形。
One-stage multiple posterior column osteotomies and fusion and pre-op halo-gravity traction may result in a comparative and safer correction of complex spine deformity than vertebral column resection.
机构信息
Spine Unit, Orthopaedic Department, Clínica Universidad de Navarra-Madrid, C/Marquesado de Santa Marta, 1, 28027, Madrid, Spain.
Orthopaedic Surgery, Shriners for Children Medical Center-Pasadena, Pasadena, USA.
出版信息
Spine Deform. 2021 Jul;9(4):977-985. doi: 10.1007/s43390-021-00289-4. Epub 2021 Feb 18.
STUDY DESIGN
A retrospective review of prospectively collected from patients recruited at a single center.
PURPOSE
To test whether safe and optimal correction can be obtained with preoperative halo-gravity traction and posterior spinal fusion with adjunctive procedures but without VCR. Posterior vertebral column resection(VCR) is gaining popularity for correction of severe spinal deformity. However, it is a highly technically demanding procedure with potential risk for complications and neurological injury.
METHODS
In total, 72 patients with severe spinal deformity (Cobb angle > 100º) who underwent HGT followed by definitive PSF with PCO, with or without concave rib osteotomy and thoracoplasty. Demographic and surgical data were collected. Conventional coronal and sagittal radiographic measurements were obtained pre-traction, post-traction, post-op and at follow-up to determine the final deformity correction. Postoperative neurological and major complications were reviewed. We used Chi-square to compare proportion between groups and t test to compare groups in quantitative/ordinal variables.
RESULTS
There were 72 patients (35 females, 37 males). The etiology was congenital (21),idiopathic (45), neurofibromatosis (2) and neuromuscular (4). The mean was: age 18 ± 4.6 years; duration of HGT 103 ± 35 days; coronal Cobb angle before traction 131.5 ± 21.4º vs 92. ± 15.9º after HGT (30% correction) and 72.8 ± 12.7º after fusion (47% correction); kyphosis angle before traction 134.7 ± 32.3º vs 97.1 ± 22.4º after HGT and 73.7 ± 21.3º post-fusion. Number of fusion levels 14 ± 1; EBL 1730 ± 744 cc; number of PCOs done 5 ± 2; number of concave rib osteotomies (2 ± 2). There were 16 patients with postoperative complications (22.2%), 10 medical, one wound infection, 2 implant related and 3 post-op neuro-deficits (all of whom recovered at follow-up). There was one death (cardiac arrest).
CONCLUSION
HGT and one-stage posterior fusion with PCO, with or without concave rib resection and thoracoplasty, without VCR, achieved satisfactory correction of rigid complex spine deformity with minimal neurological complications. The results compare favorably with previous reports of similar deformities treated with VCR.
LEVEL OF EVIDENCE
III.
研究设计
对在单个中心招募的患者进行前瞻性回顾性研究。
目的
测试术前 halo-gravity 牵引和后路脊柱融合术是否可以安全有效地进行,并辅以附加手术,但不进行 VCR。后路椎体截骨术(VCR)在矫正严重脊柱畸形方面越来越受欢迎。然而,这是一项技术要求极高的手术,存在并发症和神经损伤的潜在风险。
方法
共纳入 72 例严重脊柱畸形(Cobb 角>100°)患者,行 HGT 后行确定性后路脊柱融合术(PSF),辅以 PCO、凹侧肋骨切开术和胸廓成形术。收集患者的人口统计学和手术数据。在牵引前、牵引后、术后和随访时获得常规冠状面和矢状面影像学测量,以确定最终的畸形矫正情况。回顾术后神经并发症和主要并发症。我们使用卡方检验比较组间比例,使用 t 检验比较定量/有序变量的组间差异。
结果
共纳入 72 例患者(女性 35 例,男性 37 例)。病因包括先天性(21 例)、特发性(45 例)、神经纤维瘤病(2 例)和神经肌肉疾病(4 例)。平均年龄为 18±4.6 岁;HGT 持续时间为 103±35 天;牵引前 Cobb 角为 131.5°±21.4°,牵引后为 92°±15.9°(矫正 30%),融合后为 72.8°±12.7°(矫正 47%);牵引前后凸角为 134.7°±32.3°,牵引后为 97.1°±22.4°,融合后为 73.7°±21.3°。融合节段数为 14±1;EBL 为 1730±744cc;行 PCO 5±2 次;行凹侧肋骨切开术 2±2 次。术后并发症 16 例(22.2%),包括 10 例内科并发症、1 例伤口感染、2 例与植入物相关并发症和 3 例术后神经功能缺损(均在随访时恢复)。1 例患者死亡(心脏骤停)。
结论
HGT 和一期后路融合术(PSF)联合 PCO,辅以凹侧肋骨切除和胸廓成形术,不进行 VCR,可以实现僵硬复杂脊柱畸形的满意矫正,且神经并发症较少。与以往采用 VCR 治疗类似畸形的报道相比,结果相似。
证据水平
III。
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