利用 CT 三维重建评估 Halo-骨盆牵引治疗重度僵硬性脊柱后凸畸形的肺功能。
Evaluation of Pulmonary Function After Halo-Pelvic Traction for Severe and Rigid Kyphoscoliosis Utilizing CT with 3D Reconstruction.
机构信息
Department of Orthopedics, Beijing Chaoyang Hospital, Capital Medical University, Beijing, People's Republic of China.
出版信息
J Bone Joint Surg Am. 2023 Nov 15;105(22):1793-1800. doi: 10.2106/JBJS.23.00035. Epub 2023 Sep 21.
BACKGROUND
The purpose of the present study was to evaluate changes in pulmonary function, caused by preoperative halo-pelvic traction (HPT) for the treatment of extremely severe and rigid kyphoscoliosis, with use of 3-dimensional computed tomography (3D-CT) reconstruction and pulmonary function tests (PFTs).
METHODS
Twenty-eight patients with severe and rigid scoliosis (Cobb angle, >100°) underwent preoperative HPT and staged posterior spinal fusion. CT, radiographic assessment, and PFT were performed during pre-traction and post-traction visits. The changes in total lung volume were evaluated with use of 3D-CT reconstruction, and the changes in pulmonary function were evaluated with PFTs at each time point. Differences were analyzed with use of 2-tailed paired Student t tests, and correlations were analyzed with use of Spearman rank tests.
RESULTS
None of the patients had pulmonary complications during traction, and all radiographic spinal measurements improved significantly after HPT. The main Cobb angle was corrected from 143.30° ± 20.85° to 62.97° ± 10.83° between the pre-traction and post-traction evaluations. Additionally, the C7-S1 distance was lengthened from 280.48 ± 39.99 to 421.26 ± 32.08 mm between the pre-traction and post-traction evaluations. Furthermore, 3D lung reconstruction demonstrated a notable increase in total lung volume (TLV) (from 1.30 ± 0.25 to 1.83 ± 0.37 L) and maximum lung height (from 176.96 ± 27.44 to 202.31 ± 32.45 mm) between the pre-traction and post-traction evaluations. Moreover, PFTs showed that total lung capacity (TLC) improved between the pre-traction and post-traction evaluations (from 2.06 ± 0.32 to 2.98 ± 0.82 L) and that the changes in T1-T12 distance and maximum lung height were correlated with changes in TLV (p = 0.0288 and p = 0.0007, respectively).
CONCLUSIONS
The application of HPT is a safe and effective method for improving pulmonary function in patients with extremely severe and rigid scoliosis before fusion surgery. The TLV as measured with CT-based reconstruction was greatly increased after HPT, mainly because of the changes in thoracic height.
LEVEL OF EVIDENCE
Therapeutic Level IV . See Instructions for Authors for a complete description of levels of evidence.
背景
本研究旨在通过三维 CT 重建和肺功能测试(PFT)评估术前 Halo-骨盆牵引(HPT)治疗极重度僵硬性脊柱后凸引起的肺功能变化。
方法
28 例重度僵硬性脊柱后凸(Cobb 角>100°)患者行术前 HPT 和分期后路脊柱融合术。在牵引前和牵引后就诊时进行 CT、影像学评估和 PFT。通过三维 CT 重建评估总肺容积的变化,通过 PFT 在每个时间点评估肺功能的变化。使用双侧配对学生 t 检验分析差异,使用 Spearman 秩检验分析相关性。
结果
牵引过程中无肺部并发症,HPT 后所有影像学脊柱测量均显著改善。主要 Cobb 角从牵引前的 143.30°±20.85°矫正至牵引后的 62.97°±10.83°。此外,C7-S1 距离从牵引前的 280.48±39.99mm 延长至牵引后的 421.26±32.08mm。此外,3D 肺重建显示总肺容积(TLV)显著增加(从 1.30±0.25 增加至 1.83±0.37L),最大肺高度增加(从 176.96±27.44 增加至 202.31±32.45mm)。此外,PFT 显示总肺活量(TLC)在牵引前后均有改善(从 2.06±0.32 增加至 2.98±0.82L),T1-T12 距离和最大肺高度的变化与 TLV 的变化相关(p=0.0288 和 p=0.0007)。
结论
HPT 的应用是一种安全有效的方法,可在融合手术前改善极重度僵硬性脊柱后凸患者的肺功能。HPT 后 CT 基于重建的 TLV 大大增加,主要是由于胸腔高度的变化。
证据水平
治疗学 IV 级。有关证据水平的完整描述,请参阅作者说明。
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