超声与MRI诊断臂丛出生性麻痹肩关节发育不良的比较

Kenneth Donohue, K. Little, J. Gaughan, S. Kozin, Brian D Norton, D. Zlotolow
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Four blinded independent evaluators measured the alpha angle, the posterior humeral head displacement (PHHD), and glenoid version on both the ultrasound and MRI study for each patient. The percentage of the humeral head anterior to the scapular axis (PHHA) was determined on MRI only. Measurements were obtained on OsiriX software (Pixmeo). Intraclass correlation coefficients (ICCs) were used to assess the intrarater and interrater reliability, and Bland-Altman plots were used to compare MRI and ultrasound measurement agreement. Results: We found excellent interrater reliability for measurements of the alpha angle on MRI, glenoid version on MRI, and the alpha angle on ultrasound (ICC: 0.83, 0.75, and 0.78, respectively). The interrater reliability for the PHHD on both MRI and ultrasound was good (ICC: 0.70 and 0.68, respectively), and the interrater reliability for the PHHA on MRI was fair (ICC: 0.57). 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引用次数: 14

摘要

背景:在本研究中,我们调查了超声测量结果与磁共振成像(MRI)测量结果在评估臂丛出生性麻痹导致的肩关节发育不良时的一致性。方法:对39例臂丛分娩性麻痹患者(男14例,女25例)在2个三级保健中心进行评估。所有患者均行超声及MRI检查,怀疑为盂肱发育不良。研究平均间隔2个月(范围,0至6个月)。患者在初始影像学检查时的平均年龄为20个月(范围4至54个月)。四名独立的盲法评估者在超声和MRI研究中测量了每位患者的α角、肱骨后头位移(PHHD)和肩胛盂变形。肩胛骨轴前肱骨头(PHHA)的百分比仅通过MRI确定。测量结果在OsiriX软件(Pixmeo)上获得。分类内相关系数(ICCs)用于评估分类内和分类间的可靠性,Bland-Altman图用于比较MRI和超声测量的一致性。结果:我们发现MRI上的α角测量、MRI上的关节盂版本和超声上的α角测量具有出色的相互可靠性(ICC分别为0.83、0.75和0.78)。PHHA在MRI和超声上的互传信度均较好(ICC分别为0.70和0.68),在MRI上的互传信度为一般(ICC为0.57)。然而,超声对关节盂版本的判读可靠性较差(ICC: 0.30)。与MRI测量结果相比,超声测量结果分别平均低估了α角和关节盂形状13°±23°和6°±17°,平均高估了PHHD 4%±20%。随着患者年龄的增加,mri超声测量α角的差异显著增加(p < 0.01), PHHD的差异略有显著增加(p < 0.06)。结论:MRI和超声测量结果可靠,存在测量偏差。MRI和超声测量结果之间的不一致使超声作为评估盂肱发育不良的独立方式的有效性受到质疑。MRI仍然是全面评估盂肱关节的金标准。超声的临床作用可能是一种筛查工具或一种实时评估关节复位的方法。证据级别:诊断级i。参见《作者指南》获得证据级别的完整描述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of Ultrasound and MRI for the Diagnosis of Glenohumeral Dysplasia in Brachial Plexus Birth Palsy
Background: In this study, we investigated the agreement between measurements made on ultrasound and those made on magnetic resonance imaging (MRI) in the assessment of glenohumeral dysplasia resulting from brachial plexus birth palsy. Methods: Thirty-nine patients (14 male and 25 female) with brachial plexus birth palsy were evaluated at 2 tertiary care centers. All patients underwent ultrasonography and MRI for suspected glenohumeral dysplasia. Studies were obtained at an average of 2 months apart (range, 0 to 6 months). The average patient age at the time of the initial imaging study was 20 months (range, 4 to 54 months). Four blinded independent evaluators measured the alpha angle, the posterior humeral head displacement (PHHD), and glenoid version on both the ultrasound and MRI study for each patient. The percentage of the humeral head anterior to the scapular axis (PHHA) was determined on MRI only. Measurements were obtained on OsiriX software (Pixmeo). Intraclass correlation coefficients (ICCs) were used to assess the intrarater and interrater reliability, and Bland-Altman plots were used to compare MRI and ultrasound measurement agreement. Results: We found excellent interrater reliability for measurements of the alpha angle on MRI, glenoid version on MRI, and the alpha angle on ultrasound (ICC: 0.83, 0.75, and 0.78, respectively). The interrater reliability for the PHHD on both MRI and ultrasound was good (ICC: 0.70 and 0.68, respectively), and the interrater reliability for the PHHA on MRI was fair (ICC: 0.57). However, the interrater reliability for glenoid version on ultrasound was poor (ICC: 0.30). Relative to MRI measurements, ultrasound measurements were found to underestimate the alpha angle and glenoid version by an average of 13° ± 23° and 6° ± 17°, respectively, and overestimate the PHHD by an average of 4% ± 20%. Increasing patient age corresponded with a significant increase in the MRI-ultrasound measurement difference for the alpha angle (p < 0.01) and a marginally significant increase in the difference for the PHHD (p < 0.06). Conclusions: Measurements on MRI and ultrasound were reliable, with measured bias. The poor agreement between measurements on MRI and ultrasound calls into question the validity of using ultrasonography as a stand-alone modality in the evaluation of glenohumeral dysplasia. MRI remains the gold standard for fully evaluating the glenohumeral joint. The clinical role of ultrasonography may be that of a screening tool or a way of evaluating joint reduction in real time. Level of Evidence: Diagnostic Level I. See Instructions for Authors for a complete description of levels of evidence.
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