Correlation of transverse rotation of the spine using surface topography and 3D reconstructive radiography in children with idiopathic scoliosis.

IF 1.6 Q3 CLINICAL NEUROLOGY

Spine deformity Pub Date : 2024-07-01 Epub Date: 2024-02-26 DOI:10.1007/s43390-024-00838-7

Milan Patel, Xue-Cheng Liu, Channing Tassone, Benjamin Escott, Kai Yang, John Thometz

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引用次数: 0

Abstract

Purpose: The relationship between axial surface rotation (ASR) measured by surface topography (ST) and axial vertebral rotation (AVR) measured by radiography in the transverse plane is not well defined. This study aimed to: (1) quantify ASR and AVR patterns and their magnitudes from T1 to L5; (2) determine the correlation or agreement between the ASR and AVR; and (3) investigate the relationship between axial rotation differences (ASR-AVR) and major Cobb angle.

Methods: This is a retrospective study evaluating patients (age 8-18) with IS or spinal asymmetry with both radiographic and ST measurements. Demographics, descriptive analysis, and correlations and agreements between ASR and AVR were evaluated. A piecewise linear regression model was further created to relate rotational differences to Cobb angle.

Results: Fifty-two subjects met inclusion criteria. Mean age was 14.1 ± 1.7 and 39 (75%) were female. Looking at patterns, AVR had maximal rotation at T8, while ASR had maximal rotation at T11 (r = 0.35, P = .006). Cobb angle was 24.1° ± 13.3° with AVR of - 1° ± 4.6° and scoliotic angle was 20.9° ± 11.5° with ASR of - 2.3° ± 6.6°. (ASR-AVR) vs Cobb angle was found to be very weakly correlated with a curve of less than 38.8° (r = 0.15, P = .001).

Conclusion: Our preliminary findings support that ASR measured by ST has a weak correlation with estimation of AVR by 3D radiographic reconstruction. This correlation may further help us to understand the application of transverse rotation in some clinical scenarios such as specific casting manipulation, padding mechanism in brace, and surgical correction of rib deformity.

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在特发性脊柱侧弯症儿童中使用表面地形图和三维重建放射摄影对脊柱横向旋转进行相关分析。

目的：通过表面形貌（ST）测量的轴向表面旋转（ASR）与通过横向平面放射摄影测量的轴向椎体旋转（AVR）之间的关系尚未明确。本研究旨在(1) 量化从 T1 到 L5 的 ASR 和 AVR 模式及其大小；(2) 确定 ASR 和 AVR 之间的相关性或一致性；以及 (3) 研究轴向旋转差异（ASR-AVR）与主要 Cobb 角之间的关系：这是一项回顾性研究，对 IS 或脊柱不对称患者（8-18 岁）进行了放射学和 ST 测量评估。对人口统计学、描述性分析以及 ASR 和 AVR 之间的相关性和一致性进行了评估。此外，还建立了一个片断线性回归模型，将旋转差异与 Cobb 角联系起来：52名受试者符合纳入标准。平均年龄为（14.1 ± 1.7）岁，其中 39 人（75%）为女性。从模式上看，AVR的最大旋转在T8，而ASR的最大旋转在T11（r = 0.35，P = .006）。Cobb角为24.1° ± 13.3°，AVR为- 1° ± 4.6°；脊柱侧弯角为20.9° ± 11.5°，ASR为- 2.3° ± 6.6°。(ASR-AVR）与 Cobb 角的相关性很弱，曲线小于 38.8°（r = 0.15，P = .001）：我们的初步研究结果表明，通过 ST 测量的 ASR 与通过三维放射重建估计的 AVR 存在微弱的相关性。这种相关性可能会进一步帮助我们理解横向旋转在某些临床场景中的应用，如特定的石膏操作、支撑架中的衬垫机制以及肋骨畸形的手术矫正。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Spine deformity

CiteScore

3.20

自引率

18.80%

发文量

167

期刊介绍： Spine Deformity the official journal of the?Scoliosis Research Society is a peer-refereed publication to disseminate knowledge on basic science and clinical research into the?etiology?biomechanics?treatment?methods and outcomes of all types of?spinal deformities. The international members of the Editorial Board provide a worldwide perspective for the journal's area of interest.The?journal?will enhance the mission of the Society which is to foster the optimal care of all patients with?spine?deformities worldwide. Articles published in?Spine Deformity?are Medline indexed in PubMed.? The journal publishes original articles in the form of clinical and basic research. Spine Deformity will only publish studies that have institutional review board (IRB) or similar ethics committee approval for human and animal studies and have strictly observed these guidelines. The minimum follow-up period for follow-up clinical studies is 24 months.