利用全自动生成设计算法制作的夜间矫形器立即矫正特发性脊柱侧凸:随机对照交叉试验。

IF 2.6 2区 医学 Q2 CLINICAL NEUROLOGY Spine Pub Date : 2024-12-01 Epub Date: 2024-10-22 DOI:10.1097/BRS.0000000000005138
Maxence Coulombe, Aymeric Guy, Julie Joncas, Anton Manitiu, Philippe Poirier, Soraya Barchi, Olivier Chémaly, Félix Brassard, Stefan Parent, Hubert Labelle, Carl-Éric Aubin
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引用次数: 0

摘要

研究设计单中心、双盲、前瞻性交叉随机对照试验:目的:临床验证通过生成设计算法自动设计的夜间矫形器治疗特发性脊柱侧凸(IS)的疗效。测试假设是,新的自动生成支架设计与标准的普罗维登斯型支架相比,在支架内进行即时矫正的临床效果相当:背景数据摘要:不同中心记录的支具治疗效果不尽相同,而且取决于治疗矫形师的经验专长。我们小组之前开发了一种全自动生成式支具设计算法,该算法利用患者特定的有限元模型(FEM)在支具制作前优化支具的几何形状和矫正:招募了 58 名骨骼发育不成熟的 IS 患者,年龄在 10 到 16 岁之间。所有患者都接受了由算法自动生成的夜间支具(测试)和由矫形专家设计的普罗维登斯型支具(对照)。以随机交叉的方式为每名患者使用两种矫形器拍摄X光片,以评估矫形器内的即时矫正效果:结果:55 名目标患者(48 名女性,7 名男性)完成了研究。主胸椎(MT)曲线的即时 Cobb 角矫正率为 57%±19(测试)对 58%±21(对照),胸腰/腰椎(TLL)曲线的即时 Cobb 角矫正率为 89%±25(测试)对 87%±28(对照)。测试支架的即时矫正效果并不亚于对照支架(P < 0.001)。测试支架的顺序对即时矫正效果没有影响:结论:事实证明,全自动生成式支具设计算法具有临床相关性,可实现与矫形专家设计的支具相当的即时支具矫正效果。将继续对患者进行为期两年的随访。这种方法的整合有助于设计治疗 IS 的支具并使其合理化:证据等级:2 级。
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Immediate Correction of Idiopathic Scoliosis With Nighttime Braces Created by a Fully Automated Generative Design Algorithm: A Randomized Controlled Crossover Trial.

Study design: Single-center, double-blinded, prospective crossover randomized controlled trial.

Objective: To clinically validate the efficacy of nighttime braces designed automatically by a generative design algorithm to treat idiopathic scoliosis (IS). The tested hypothesis was the clinical equivalence of immediate in-brace correction for the new automatically generated brace design versus a standard Providence-type brace.

Summary of background data: Documented efficacy of brace treatment varies between centers, and depends on the empirical expertise of the treating orthotist. Our group previously developed a fully automated generative brace design algorithm that leverages a patient-specific finite-element model (FEM) to optimize brace geometry and correction before its fabrication.

Methods: Fifty-eight skeletally immature patients diagnosed with IS, aged between 10 and 16 years were recruited. All patients received both a nighttime brace automatically generated by the algorithm (test) and a Providence-type brace designed by an expert orthotist (control). Radiographs were taken for each patient with both braces in a randomized crossover approach to evaluate immediate in-brace correction.

Results: The targeted 55 patients (48 females, 7 males) completed the study. The immediate Cobb angle correction was 57% 19 (test) versus 58% 21 (control) for the main thoracic (MT) curve, whereas it was 89% 25 (test) versus 87% 28 (control) for the thoracolumbar/lumbar (TLL) spine. The immediate correction with the test brace was noninferior to that of the Control brace ( P 0.001). The order in which the braces were tested did not have a residual effect on the immediate correction.

Conclusion: The fully automated generative brace design algorithm proves to be clinically relevant, allowing for immediate in-brace correction equivalent to that of braces designed by expert orthotists. Patient 2 years follow-up will continue. This method's integration could help design and rationalize the design of braces for the treatment of IS.

Level of evidence: Level 2.

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来源期刊
Spine
Spine 医学-临床神经学
CiteScore
5.90
自引率
6.70%
发文量
361
审稿时长
6.0 months
期刊介绍: Lippincott Williams & Wilkins is a leading international publisher of professional health information for physicians, nurses, specialized clinicians and students. For a complete listing of titles currently published by Lippincott Williams & Wilkins and detailed information about print, online, and other offerings, please visit the LWW Online Store. Recognized internationally as the leading journal in its field, Spine is an international, peer-reviewed, bi-weekly periodical that considers for publication original articles in the field of Spine. It is the leading subspecialty journal for the treatment of spinal disorders. Only original papers are considered for publication with the understanding that they are contributed solely to Spine. The Journal does not publish articles reporting material that has been reported at length elsewhere.
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