持续监测全肩关节置换术后的肩部运动:最大抬高角度和超过 90°抬高角度的时间是需要监测的关键指标。
Continuously monitoring shoulder motion after total shoulder arthroplasty: maximum elevation and time spent above 90° of elevation are critical metrics to monitor.
机构信息
Thayer School of Engineering, Dartmouth College, Hanover, NH, USA.
Department of Orthopaedics, Dartmouth-Hitchcock Medical Center, Lebanon, NH, USA.
出版信息
J Shoulder Elbow Surg. 2019 Aug;28(8):1505-1514. doi: 10.1016/j.jse.2019.01.003. Epub 2019 Apr 5.
BACKGROUND
Traditional clinical shoulder range-of-motion (ROM) measurement methods (ie, goniometry) have limitations assessing ROM in total shoulder arthroplasty (TSA) patients. Inertial measurement units (IMUs) are superior; however, further work is needed using IMUs to longitudinally assess shoulder ROM before TSA and throughout post-TSA rehabilitation. Accordingly, the study aims were to prospectively capture shoulder elevation in TSA patients and to compare the results with healthy controls. We hypothesized that patients would have reduced maximum elevation before TSA compared with controls but would have improved ROM after TSA.
METHODS
A validated IMU-based shoulder elevation quantification method was used to continuously monitor 10 healthy individuals (4 men and 6 women; mean age, 69 ± 20 years) without shoulder pathology and 10 TSA patients (6 men and 4 women; mean age, 70 ± 8 years). Controls wore IMUs for 1 week. Patients wore IMUs for 1 week before TSA, for 6 weeks at 3 months after TSA, and for 1 week at 1 year after TSA. Shoulder elevation was calculated continuously, broken into 5° angle "bins" (0°-5°, 5°-10°, and so on), and converted to percentages. The main outcome measures were binned movement percentage, maximum elevation, and average elevation. Patient-reported outcome measures and goniometric ROM were also captured.
RESULTS
No demographic differences were noted between the cohorts. Average elevation was not different between the cohorts at any time. Control maximum elevation was greater than pre-TSA and post-TSA week 1 and week 2 values. Time under 30° and time above 90° were equal between the cohorts before TSA. After TSA, patients showed decreased time under 30° and increased time above 90°.
DISCUSSION
This study demonstrates that acute and chronic recovery after TSA can be assessed via maximum elevation and time above 90°, respectively. These results inform how healthy individuals and patients use their shoulders before and after TSA.
背景
传统的临床肩部活动范围(ROM)测量方法(例如,量角器)在评估全肩关节置换术(TSA)患者的 ROM 方面存在局限性。惯性测量单元(IMU)具有优势;然而,需要进一步使用 IMU 来在 TSA 之前和整个 TSA 康复期间对肩部 ROM 进行纵向评估。因此,研究目的是前瞻性地捕获 TSA 患者的肩部抬高,并将结果与健康对照组进行比较。我们假设患者在 TSA 之前的最大抬高幅度会降低,但在 TSA 之后的 ROM 会得到改善。
方法
使用经过验证的基于 IMU 的肩部抬高量化方法连续监测 10 名无肩部疾病的健康个体(4 名男性和 6 名女性;平均年龄,69±20 岁)和 10 名 TSA 患者(6 名男性和 4 名女性;平均年龄,70±8 岁)。对照组佩戴 IMU 一周。患者在 TSA 前佩戴 IMU 一周,在 TSA 后 3 个月佩戴 6 周,在 TSA 后 1 年佩戴 1 周。肩部抬高角度连续计算,分为 5°角“箱”(0°-5°,5°-10°,以此类推),并转换为百分比。主要结局指标为分箱运动百分比、最大抬高和平均抬高。还捕获了患者报告的结果测量和量角器 ROM。
结果
两组人群在人口统计学上没有差异。在任何时间,平均抬高都没有两组之间的差异。对照组的最大抬高幅度大于 TSA 前和 TSA 后第 1 周和第 2 周的值。在 TSA 之前,两组之间在 30°以下和 90°以上的时间没有差异。TSA 后,患者表现出 30°以下时间减少和 90°以上时间增加。
讨论
这项研究表明,TSA 后的急性和慢性恢复期可以分别通过最大抬高和超过 90°的时间来评估。这些结果说明了健康个体和患者在 TSA 前后如何使用他们的肩膀。
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