对成人平背畸形进行矢状垂直对齐和腰椎前凸的顺序矫正

Q3 Medicine North American Spine Society Journal Pub Date : 2024-09-01 DOI:10.1016/j.xnsj.2024.100544

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引用次数: 0

摘要

背景扁平背畸形或腰椎下垂可导致矢状面失衡，引起背痛、疲劳和功能受限。通过截骨和椎体间融合技术进行手术矫正可恢复矢状面平衡并缓解疼痛。方法将人体 T10-骶骨标本分为两组：退行性平背标本的 L1-S1 椎前凸（26.1°±15.0° vs. 47.8°±19.3°，p<.05）小于先天性标本组（26.1°±15.0° vs. 47.8°±19.3°，p<.05）。将标本安装在仪器中，模拟站立姿势，标称骶骨斜度为 45 度，并承受 400N 的压缩随动器预压。退行性腰椎平背畸形的序列矫正包括：L5-S1 的前路腰椎椎间融合术 (ALIF)、L4-5 的 ALIF、L2-3 和 L3-4 的侧路腰椎椎间融合术 (LLIF)，以及 L2-3 和 L3-4 的后柱截骨术 (PCO)。在先天性标本中，通过在L4-L5-S1处使用椎弓根螺钉器械进行后方原位固定，然后通过椎弓根螺钉进行牵引，形成平背畸形。我们随后在 L2-3 和 L3-4 处进行了 LLIF，然后在 L2-3 和 L3-4 处进行了 PCO。结果在退行性平背标本中，L5-S1 ALIF、L4-5 ALIF 和 PCO 后，SVA 和前凸在统计学上有显著的增量矫正。在先天性组中，L4-L5-S1下脊柱融合术后，站立对齐度有明显的统计学恶化。随后的 L2-3 和 L3-4 LLIF 并未明显改善矢状排列。然而，L2-3和L3-4的PCO术后，最终的对位参数与下椎体融合术前的基线值相比没有明显差异。在上腰段，单独使用 LLIF 保持架无法有效改善腰椎前凸。LLIF固定架与PCO结合使用可改善退行性平背畸形和先天性平背畸形的对齐参数。

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Sequential correction of sagittal vertical alignment and lumbar lordosis in adult flatback deformity

Background

Flatback deformity, or lumbar hypolordosis, can cause sagittal imbalance, causing back pain, fatigue, and functional limitation. Surgical correction through osteotomies and interbody fusion techniques can restore sagittal balance and relieve pain. This study investigated sagittal vertical alignment (SVA) and lumbar lordosis correction achieved through sequential procedures on human spine specimens.

Methods

Human T10-sacrum specimens were stratified into 2 groups: degenerative flatback specimens had smaller L1-S1 lordosis compared to the iatrogenic group (26.1°±15.0° vs. 47.8°±19.3°, p<.05). Specimens were mounted in the apparatus in simulated standing posture with a nominal sacral slope of 45 degrees and subjected to a 400N compressive follower preload. Sequential correction of degenerative lumbar flatback deformity involved: anterior lumbar interbody fusion (ALIF) at L5-S1, ALIF at L4-5, lateral lumbar interbody fusion (LLIF) at L2-3 and L3-4, and posterior column osteotomy (PCO) at L2-3 and L3-4. In iatrogenic specimens, flatback deformity was created by performing a posterior in-situ immobilization using pedicle screw instrumentation at L4-L5-S1 followed by distraction across the pedicle screws. We then performed LLIF at L2-3 and L3-4, followed by PCO at L2-3 and L3-4.

Results

Statistically significant incremental corrections were noted in SVAs and lordosis after L5-S1 ALIF, L4-5 ALIF, and PCO in degenerative flatback specimens. For the iatrogenic group, statistically significant worsening was noted in measures of standing alignment after L4-L5-S1 hypolordotic fusion. Subsequent LLIF at L2-3 and L3-4 did not significantly improve sagittal alignment. However, after PCO at L2-3 and L3-4, final alignment parameters were not significantly different than preoperative baseline values prior to hypolordotic fusion.

Conclusions

ALIF cages in the lower lumbar segments significantly improved sagittal alignment in degenerative flatback specimens. In the upper lumbar segments, LLIF cages alone were ineffective at enhancing lumbar lordosis. LLIF cages in conjunction with PCO improved alignment parameters in degenerative and iatrogenic flatback deformities.

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