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The Reliability of the Microsoft Kinect and Ambulatory Sensor-Based Motion Tracking Devices to Measure Shoulder Range-of-Motion: A Systematic Review and Meta-Analysis.基于 Microsoft Kinect 和可移动传感器的运动跟踪设备测量肩部活动范围的可靠性:系统评价和荟萃分析。
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2
Evaluation of the Azure Kinect and Its Comparison to Kinect V1 and Kinect V2.评估 Azure Kinect 及其与 Kinect V1 和 Kinect V2 的比较。
Sensors (Basel). 2021 Jan 8;21(2):413. doi: 10.3390/s21020413.
3
The Validity and Reliability of the Microsoft Kinect for Measuring Trunk Compensation during Reaching.使用 Microsoft Kinect 测量伸展过程中躯干补偿的有效性和可靠性。
Sensors (Basel). 2020 Dec 10;20(24):7073. doi: 10.3390/s20247073.
4
COSMIN Risk of Bias tool to assess the quality of studies on reliability or measurement error of outcome measurement instruments: a Delphi study.COSMIN 偏倚风险工具评估结局测量工具可靠性或测量误差研究的质量:德尔菲研究。
BMC Med Res Methodol. 2020 Dec 3;20(1):293. doi: 10.1186/s12874-020-01179-5.
5
Evaluation of the Pose Tracking Performance of the Azure Kinect and Kinect v2 for Gait Analysis in Comparison with a Gold Standard: A Pilot Study.评估 Azure Kinect 和 Kinect v2 在步态分析中的姿势跟踪性能与金标准的比较:一项初步研究。
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DigitalROM: Development and validation of a system for assessment of shoulder range of motion.数字ROM:一种用于评估肩部活动范围的系统的开发与验证
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Validity and Reliability of Upper Limb Functional Assessment Using the Microsoft Kinect V2 Sensor.使用微软Kinect V2传感器进行上肢功能评估的效度和信度
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基于 RGB-D 传感器的单目无标记运动捕捉系统测量肩关节活动度的有效性和可靠性:系统评价和荟萃分析方案。

Validity and reliability of the single camera marker less motion capture system using RGB-D sensor to measure shoulder range-of-motion: A protocol for systematic review and meta-analysis.

机构信息

Department of Clinical Korean Medicine, Graduate School, Kyung Hee University, Seoul, Republic of Korea.

Department of Acupuncture and Moxibustion Medicine, Kyung Hee University Medical Center, Seoul, Republic of Korea.

出版信息

Medicine (Baltimore). 2023 Jun 2;102(22):e33893. doi: 10.1097/MD.0000000000033893.

DOI:10.1097/MD.0000000000033893
PMID:37266604
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10238018/
Abstract

BACKGROUND

The range-of motion (ROM) is an essential component of joint mobility. Shoulder ROM measurement has been problematic due to its complexity. A marker less motion capture system can be a potential alternative for upper limb assessment. Currently, there is no systematic review to evaluate the validity of a marker less motion capture system for assessing shoulder ROM. This study aims to describe methods to evaluate the reliability and validity of a single camera marker less motion capture system that uses an RGB-depth sensor to measure shoulder ROM.

METHODS

Studies that measured shoulder ROM with a single camera marker less motion capture system using the RGB-depth sensor and assessed the intra- and/or inter-rater reliability, and/or validity of the device will be included. The search of electronic databases, such as MEDLINE, EMBASE, Cochran library, Cumulative Index to Nursing, and Allied Health Literature via EBSCO, IEEE Xplore, China National Knowledge Infrastructure, KoreaMed, Korean studies Information Service System, and Research Information Sharing Services will be performed for all relevant articles from inception to December 2022. Two authors will independently perform quality assessments using the Consensus-based Standards for the selection of health Measurement Instruments checklist for reliability, measurement error of outcome measurement instrument, and criterion validity. The primary outcomes will be the intra- and inter-rater reliability and validity of the markerless motion capture system measuring shoulder flexion, extension, abduction, adduction, internal rotation, or external rotation. A subgroup analysis would be performed if there are sufficient data to pool to identify an influencing factor in the measurement of ROM using a marker less motion capture system.

RESULTS AND CONCLUSION

These findings will present tools to utilize and evaluate single camera motion capture systems for the medical use for clinicians and healthcare experts and can aid in further clinical research using such a system for different movements and other joints.

摘要

背景

运动范围(ROM)是关节活动度的一个重要组成部分。由于其复杂性,肩部 ROM 测量一直存在问题。无标记运动捕捉系统可能是上肢评估的一种潜在替代方法。目前,尚无系统评价评估无标记运动捕捉系统评估肩部 ROM 的有效性。本研究旨在描述一种评估使用 RGB 深度传感器的单目无标记运动捕捉系统的可靠性和有效性的方法,该系统用于测量肩部 ROM。

方法

将纳入使用 RGB 深度传感器的单目无标记运动捕捉系统测量肩部 ROM 并评估设备的内部和/或内部可靠性和/或有效性的研究。将通过 EBSCO 的 MEDLINE、EMBASE、Cochran 图书馆、护理学和联合健康文献累积索引、IEEE Xplore、中国国家知识基础设施、韩国医学、韩国研究信息服务系统和研究信息共享服务等电子数据库对从开始到 2022 年 12 月的所有相关文章进行搜索。两位作者将使用基于共识的健康测量仪器选择标准检查表分别独立进行可靠性、结果测量仪器的测量误差和标准有效性的质量评估。主要结果将是无标记运动捕捉系统测量肩部前屈、后伸、外展、内收、内旋或外旋的内部和外部可靠性和有效性。如果有足够的数据进行汇总以确定无标记运动捕捉系统在测量 ROM 时的影响因素,则将进行亚组分析。

结果和结论

这些发现将为临床医生和医疗保健专家提供用于医学用途的单目运动捕捉系统的使用和评估工具,并有助于使用此类系统进行不同运动和其他关节的进一步临床研究。