210P 利用可穿戴设备 "ArmTracker "进行运动参数化,推进杜兴氏肌肉萎缩症和脊髓性肌肉萎缩症患者的上肢运动功能评估

IF 2.7 4区 医学 Q2 CLINICAL NEUROLOGY Neuromuscular Disorders Pub Date : 2024-10-01 DOI:10.1016/j.nmd.2024.07.061
D. Natera De Benito , A. Favata , J. Expósito-Escudero , R. Gallart , O. Moya , S. Roca , A. Marzabal Gatell , L. van Noort , C. Ortez , C. Torras , A. Nascimento , J. Medina-Cantillo , R. Pàmies Vilà , J. Font-Llagunes
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引用次数: 0

摘要

评估杜兴氏肌肉萎缩症(DMD)和脊髓性肌肉萎缩症(SMA)患者的上肢运动功能传统上分别依赖于上肢运动功能量表(PUL)和修订版上肢模块量表(RULM)。虽然这些量表被认为是黄金标准,但单独使用这些量表会带来一些挑战,尤其是在捕捉运动功能随时间或治疗反应而发生的细微变化方面。惯性测量单元(IMU)是一种惯性传感器,可提供客观、可量化的运动数据。我们假设,将惯性测量单元的测量结果整合到这些量表中,可以为更全面地评估神经肌肉疾病患者的运动功能提供补充数据。10 名患有 DMD 的儿童(年龄在 12-17 岁之间,布鲁克评分 2-5 分)、10 名患有 SMA 的儿童(年龄在 6-13 岁之间,布鲁克评分 2-5 分)和 6 名健康对照组儿童(年龄在 5-17 岁之间,布鲁克评分 1 分)在佩戴 ArmTracker 设备(该设备配备了 7 个 IMU(Xsens Dot,Xsens Technologies),分别放置在手背、前臂、手臂和躯干上)的同时进行了 PUL 和 RULM 量表测试。每个 IMU 都提供四元数数据。受试者坐在椅子上,前臂放在桌子上,进行传感器到区段的校准过程。在校准过程中拍摄了正面和侧面的照片,并将这些视觉信息与 IMU 数据整合在一起,以提高校准精度。肩部采用欧拉角 YZ'Y'',肘部和腕部采用 ZX'Y''。使用斯皮尔曼相关系数评估了手的最大可触及面积、工作区面积以及肩、肘和腕的活动范围,并将其与运动功能量表评分联系起来。工作空间面积按个人可达到的最大面积(单位:%)进行归一化处理。我们发现,上肢的工作区面积(尤其是额平面)与 PUL 和 RULM 的评分之间存在明显的相关性。此外,我们还观察到两个运动功能量表的得分与肩关节的活动范围(ROM)之间存在明显的相关性。此外,分析三个主要上肢关节角度的相关矩阵揭示了补偿模式,这对于在量表中识别肩部外展任务中的补偿运动尤为重要。在对患有神经肌肉疾病的人进行功能性运动量表测量时使用惯性传感器,可获得评估运动功能的重要变量,尤其是上肢的工作区面积和肩关节的活动度。目前正在对使用 ArmTracker 在家中和学校进行为期四天评估的同一批人进行这些变量和其他变量的进一步调查。这项正在进行的研究旨在确定该系统在家中进行评估以及在日常场景中评估实际运动的潜力。
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210P Advancing upper limb motor function evaluation in Duchenne muscular dystrophy and spinal muscular atrophy via kinematic parameterization with the wearable device “ArmTracker”
Assessing upper limb motor function in Duchenne Muscular Dystrophy (DMD) and Spinal Muscular Atrophy (SMA) traditionally relies on the Performance of Upper Limb (PUL) and Revised Upper Limb Module (RULM) scales, respectively. While considered gold standards, using these scales in isolation presents some challenges, notably in capturing subtle changes in motor function over time or in response to treatments. Inertial Measurement Units (IMUs) are inertial sensors that provide objective and quantifiable movement data. We hypothesize that integrating IMU measurements into these scales could provide complementary data for a more comprehensive assessment of motor function in individuals with neuromuscular diseases. Ten children with DMD (aged 12-17, Brooke score 2-5), 10 children with SMA (aged 6-13, Brooke score 2-5), and 6 healthy control children (aged 5-17, Brooke score 1) performed the PUL and RULM scales while wearing the ArmTracker device, equipped with 7 IMUs (Xsens Dot, Xsens Technologies) placed on the back of the hands, forearms, arms, and torso. Each IMU provided quaternion data. A sensor-to-segment calibration process was conducted with subjects seated in a chair with forearms resting on a table. Photographs were taken in frontal and lateral planes during calibration, and this visual information was integrated with IMU data to enhance calibration accuracy. Euler angles YZ'Y’’ for the shoulder, and ZX'Y’’ for the elbow and wrist were utilized. Maximum reachable area of hands, workspace area, and range of motion of shoulder, elbow, and wrist were evaluated and correlated with motor function scale scores using the Spearman correlation coefficient. Workspace area was normalized by the maximum achievable area by individuals (in %). We found significant correlations between the workspace area of upper limbs, notably on the frontal plane, and the scores of both the PUL and RULM. Additionally, significant correlations were observed between the scores of both motor function scales and the range of motion (ROM) of the shoulder. Furthermore, a correlation matrix analyzing the angles of the three primary upper limb joints revealed compensation patterns, which proved particularly valuable in identifying compensatory movements during the shoulder abduction task within the scales. Employing inertial sensors during the administration of functional motor scales in individuals with neuromuscular diseases yields valuable variables for assessing motor function, with particular interest in workspace area of the upper limbs and ROM of the shoulder. These and other variables are currently under further investigation within the same cohort of individuals who have undergone evaluations at home and school spanning four days utilizing the ArmTracker. This ongoing research aims to ascertain the system's potential for conducting assessments at home and assessing real-life movements in everyday scenarios.
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来源期刊
Neuromuscular Disorders
Neuromuscular Disorders 医学-临床神经学
CiteScore
4.60
自引率
3.60%
发文量
543
审稿时长
53 days
期刊介绍: This international, multidisciplinary journal covers all aspects of neuromuscular disorders in childhood and adult life (including the muscular dystrophies, spinal muscular atrophies, hereditary neuropathies, congenital myopathies, myasthenias, myotonic syndromes, metabolic myopathies and inflammatory myopathies). The Editors welcome original articles from all areas of the field: • Clinical aspects, such as new clinical entities, case studies of interest, treatment, management and rehabilitation (including biomechanics, orthotic design and surgery). • Basic scientific studies of relevance to the clinical syndromes, including advances in the fields of molecular biology and genetics. • Studies of animal models relevant to the human diseases. The journal is aimed at a wide range of clinicians, pathologists, associated paramedical professionals and clinical and basic scientists with an interest in the study of neuromuscular disorders.
期刊最新文献
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