胸腔镜下椎体前部系绳术治疗伦克 1 型右侧青少年特发性脊柱侧凸。

IF 1 Q3 SURGERY
JBJS Essential Surgical Techniques Pub Date : 2023-08-30 eCollection Date: 2023-07-01 DOI:10.2106/JBJS.ST.22.00027
Clément Jeandel, Nicolas Bremond, Marie Christine de Maximin, Yan Lefèvre, Aurélien Courvoisier
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Compressive forces applied to the convexity of the deformity by a polyethylene tether allow the patient's growth to realign the spine. Intraoperative correction triggers growth modulation, and most of the modulation seems to occur during the first 12 months postoperatively. The best results have been seen with a short Lenke type-1A curve in a patient with closed triradiate cartilage, a Risser 3 or lower (ideally Risser 0) iliac apophysis, and a flexible curve characterized by a 50% reduction of the major coronal curve angle on side-bending radiographs.</p><p><strong>Expected outcomes: </strong>In 57 immature patients with a Lenke type-1A or 1B curve (i.e., a 30° to 65° preoperative Cobb angle), Samdani et al.<sup>3</sup> found a main thoracic Cobb angle reduction from 40° ± 7° preoperatively to 19° ± 13° at 2 years after VBT. In the sagittal plane, the T5-T12 kyphosis measured 15° ± 10° preoperatively, 17° ± 10° postoperatively, and 20° ± 13° at 2 years. 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The vertebral body must be structurally and dimensionally adequate to accommodate screw fixation, as determined radiographically. The best indication for VBT is a flexible single major thoracic curve with nonstructural compensating lumbar and proximal thoracic curves (Lenke 1A or 1B). VBT allows for progressive correction of the deformity without spinal fusion by utilizing a minimally invasive fluoroscopic technique.</p><p><strong>Description: </strong>The procedure for a right thoracic curve is performed with use of a right thoracoscopic approach with the patient in the left lateral decubitus position. The thoracoscope is introduced through a portal at the apex of the curvature in the posterior axillary line. Instrument portals are created lateral to each vertebral body in the mid-axillary line. Screws are inserted into each vertebral body under biplanar fluoroscopic control and with intraoperative neuromonitoring. 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引用次数: 0

摘要

背景:椎体拴系术(VBT)适用于骨骼发育不成熟、支具治疗失败或不能耐受支具治疗、主要冠状曲线为 40° 至 65° 的渐进性青少年特发性脊柱侧弯(AIS)患者。椎体的结构和尺寸必须足以容纳螺钉固定,这一点通过影像学检查即可确定。VBT 的最佳适应症是具有非结构性代偿性腰椎和胸椎近端弯曲(Lenke 1A 或 1B)的灵活的单一主要胸椎弯曲。通过微创透视技术,VBT 可以逐步矫正畸形,而无需进行脊柱融合:右胸椎弯曲手术采用右胸腔镜方法,患者取左侧卧位。胸腔镜通过腋窝后线弯曲顶点的入口导入。在腋中线每个椎体的外侧创建器械入口。在双平面透视控制和术中神经监测下,将螺钉插入每个椎体。电导探查装置虽然不是强制性的,但在我们的手术中是常规使用的。将系绳连接到构造的最近端螺钉上,然后通过从一个椎体螺钉到下一个椎体螺钉依次拉紧系绳来实现缩小:支撑是治疗涉及未成熟脊柱的渐进性 AIS 的金标准疗法。最常用的手术治疗方法是脊柱后路融合术(PSF),当主要冠状曲线超过45°时,应考虑采用PSF:PSF已被证明是矫正脊柱侧弯畸形的可靠技术。其并发症发生率低,长期效果良好。然而,人们对 PSF 所带来的硬度以及邻近节段疾病的长期影响仍存在担忧。因此,人们对非融合的 AIS 矫正方案产生了兴趣。VBT 利用 Hueter-Volkmann 原理来引导生长和矫正畸形。通过聚乙烯系带对畸形凸面施加压缩力,使患者的生长重新调整脊柱。术中矫正会引发生长调节,大部分调节似乎发生在术后的头 12 个月。对于三桡骨软骨闭合、髂骨干骺端为里瑟3或更低(理想情况下为里瑟0)的短Lenke-1A型曲线患者,以及在侧弯X光片上主要冠状曲线角度缩小50%的柔性曲线患者,效果最好:Samdani 等人3 在 57 名 Lenke 1A 型或 1B 型曲线(即术前 Cobb 角为 30° 至 65°)的未成熟患者中发现,VBT 术后 2 年,胸椎主要 Cobb 角从术前的 40° ± 7°减小到 19° ± 13°。在矢状面上,T5-T12椎体后凸的测量结果为术前 15°±10°,术后 17°±10°,2 年后 20°±13°。无重大神经或肺部并发症发生。在 57 名患者中,共有 7 人(12.3%)接受了手术翻修,其中 5 人因过度矫正而接受手术,2 人因额外的椎体跨度而接受手术。Pehlivanoglu 等人4 在对 21 名骨骼发育成熟的患者进行的研究中发现,Cobb 角从术前的 48°减小到术后第一次直立拍片时的 16°,并在最近一次随访(平均 27.4 个月)时最终减小到 10°。文献报道的 VBT 两大并发症是过度矫正和系带断裂。这两种情况都可能需要翻修,这也是VBT的翻修率高于PSF的原因:重要提示:良好的患者选择非常重要。VBT最适用于Risser三期前、三椎体软骨闭合后的未成熟儿童的灵活Lenke 1A或1B型曲线。应始终在荧光透视下监测和控制螺钉在前胸和侧方平面的定位。螺钉应平行于椎体终板放置,或者上部椎体向下倾斜,下部椎体向上倾斜,以降低张紧装置和生长调节时的拉出风险。在张紧装置的控制下,最上和最下器械椎体的张力小于顶点,也有助于限制拉出:VBT=椎体拴系AIS=青少年特发性脊柱侧凸IIONM=术中神经监测PSF=后路脊柱融合术UIV=上部器械椎体LIV=下部器械椎体AP=前路K线=Kirschner线。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thoracoscopic Anterior Vertebral Body Tethering in Lenke Type-1 Right Adolescent Idiopathic Scoliosis.

Background: Vertebral body tethering (VBT) is indicated for skeletally immature patients with progressive adolescent idiopathic scoliosis (AIS) who have failed or are intolerant of bracing and who have a major coronal curve of 40° to 65°. The vertebral body must be structurally and dimensionally adequate to accommodate screw fixation, as determined radiographically. The best indication for VBT is a flexible single major thoracic curve with nonstructural compensating lumbar and proximal thoracic curves (Lenke 1A or 1B). VBT allows for progressive correction of the deformity without spinal fusion by utilizing a minimally invasive fluoroscopic technique.

Description: The procedure for a right thoracic curve is performed with use of a right thoracoscopic approach with the patient in the left lateral decubitus position. The thoracoscope is introduced through a portal at the apex of the curvature in the posterior axillary line. Instrument portals are created lateral to each vertebral body in the mid-axillary line. Screws are inserted into each vertebral body under biplanar fluoroscopic control and with intraoperative neuromonitoring. An electroconductivity probing device, while not mandatory, is routinely utilized at our practice. The tether is attached to the most proximal screw of the construct, and then reduction is obtained sequentially by tensioning the tether from one vertebral screw to the next.

Alternatives: Bracing is the gold-standard treatment for progressive AIS involving the immature spine. The most commonly utilized surgical treatment is posterior spinal fusion (PSF), which should be considered when the major coronal curve exceeds 45°.

Rationale: PSF has proven to be a dependable technique to correct scoliotic deformities. It has a low complication rate and good long-term outcomes. However, concerns exist regarding the stiffness conferred by PSF and the long-term effects of adjacent segment disease. Thus, interest had developed in non-fusion solutions for AIS correction. VBT utilizes the Hueter-Volkmann principle to guide growth and correct deformity. Compressive forces applied to the convexity of the deformity by a polyethylene tether allow the patient's growth to realign the spine. Intraoperative correction triggers growth modulation, and most of the modulation seems to occur during the first 12 months postoperatively. The best results have been seen with a short Lenke type-1A curve in a patient with closed triradiate cartilage, a Risser 3 or lower (ideally Risser 0) iliac apophysis, and a flexible curve characterized by a 50% reduction of the major coronal curve angle on side-bending radiographs.

Expected outcomes: In 57 immature patients with a Lenke type-1A or 1B curve (i.e., a 30° to 65° preoperative Cobb angle), Samdani et al.3 found a main thoracic Cobb angle reduction from 40° ± 7° preoperatively to 19° ± 13° at 2 years after VBT. In the sagittal plane, the T5-T12 kyphosis measured 15° ± 10° preoperatively, 17° ± 10° postoperatively, and 20° ± 13° at 2 years. No major neurologic or pulmonary complications occurred. A total of 7 (12.3%) of the 57 patients underwent surgical revision, including 5 for overcorrection and 2 to span additional vertebrae. In a study of 21 skeletally mature patients, Pehlivanoglu et al.4 found that the Cobb angle was reduced from 48° preoperatively to 16° on the first-erect postoperative radiograph and finally to 10° at the latest follow-up (mean, 27.4 months). The 2 main complications of VBT reported in the literature are overcorrection and tether breakage. Both may require revision, which explains the higher rate of revision observed for VBT compared with PSF.

Important tips: Good patient selection is important. VBT is most appropriate in cases of a flexible Lenke type-1A or 1B curve in an immature child before Risser stage 3 and after triradiate cartilage closure.Always monitor and control screw positioning in both anteroposterior and lateral planes fluoroscopically.The screws should be placed parallel to the vertebral end plates or, even better, be angled inferiorly for the upper vertebrae and angled superiorly for the lower vertebrae to decrease the risk of pull-out when tensioning the device and during growth modulation. Less tension on the uppermost and lowermost instrumented vertebrae than at the apex, as controlled by the tensioning device, can also help to limit pull-out.

Acronyms and abbreviations: VBT = vertebral body tetheringAIS = adolescent idiopathic scoliosisIONM = intraoperative neuromonitoringPSF = posterior spinal fusionUIV = upper instrumented vertebraLIV = lower instrumented vertebraAP = anteroposteriorK-wire = Kirschner wire.

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来源期刊
CiteScore
2.30
自引率
0.00%
发文量
22
期刊介绍: JBJS Essential Surgical Techniques (JBJS EST) is the premier journal describing how to perform orthopaedic surgical procedures, verified by evidence-based outcomes, vetted by peer review, while utilizing online delivery, imagery and video to optimize the educational experience, thereby enhancing patient care.
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