3D扫描容积法评定上肢远端体积的信度和效度

doi:10.3969/j.issn.1006-9771.2023.03.017

《中国康复理论与实践》 ›› 2023, Vol. 29 ›› Issue (3): 364-367.doi: 10.3969/j.issn.1006-9771.2023.03.017

3D扫描容积法评定上肢远端体积的信度和效度

邱晓, 凌骏麒, 从洋洋, 白玉龙()

复旦大学附属华山医院（宝山院区）康复医学科，上海市 201907

收稿日期:2022-11-14 修回日期:2023-03-09 出版日期:2023-03-25 发布日期:2023-04-14
通讯作者: 白玉龙 E-mail:dr_baiyl@fudan.edu.cn
作者简介:邱晓(1990-)，女，汉族，上海市人，博士，主治医师，主要研究方向：脑卒中康复。
基金资助:
1. 上海市卫生健康委员会科研课题(20204Y0442);2. 宝山区科技创新专项资金项目(17-E-31);3. 上海市"科技创新行动计划"扬帆专项(22YF1405400)

Feasibility, reliability and validity of a 3D scanning volume measurement for distal upper limb volume

QIU Xiao, LING Junqi, CONG Yangyang, BAI Yulong()

Department of Rehabilitation, Huashan Hospital of Fudan University, Shanghai 201907, China

Received:2022-11-14 Revised:2023-03-09 Published:2023-03-25 Online:2023-04-14
Contact: BAI Yulong E-mail:dr_baiyl@fudan.edu.cn
Supported by:
Shanghai Municipal Health Commission Scientific Research Project(20204Y0442);Baoshan District Science and Technology Innovation Special Fund(17-E-31);Shanghai Science and Technology Innovation Action Plan Sailing Special Project(22YF1405400)

摘要/Abstract

摘要：

目的明确3D扫描容积法测量上肢远端体积的可行性，分析其评定者间信度和效标关联效度。

方法 2022年1月至3月，由1名未接触过3D扫描容积法和排水法的康复治疗师(操作者A)经过培训后，分别使用手持式3D激光扫描仪和溢水杯，对PVC材质上肢远端模型进行体积测量。分别记录两种方法各操作30次的时间，采用累积和分析法(CUSUM)绘制两种操作方法的学习曲线，以曲线顶点为界，划分为学习提高阶段和熟练掌握阶段，记录两种方法达到熟练掌握阶段所需次数以及熟练掌握阶段的操作时间。从复旦大学附属华山医院招募20例健康受试者，由2名康复治疗师(操作者A、操作者B)经过培训后，分别使用手持式3D激光扫描仪测量双侧上肢远端体积，由操作者A使用溢水杯测量双侧上肢远端体积。

结果 3D扫描容积法学习曲线的拟合曲线(R² = 0.984)在操作8次时到达顶点；排水法学习曲线的拟合曲线(R² = 0.494)在操作5次时到达顶点。熟练掌握阶段，3D扫描容积法操作时间较排水法短(P < 0.05)。2名操作者使用3D扫描容积法2次测量双上肢的组内相关系数均为0.979 (P < 0.001)。3D扫描容积法测得体积与排水法测得体积呈高度相关(r > 0.979, P < 0.001)。

结论 3D扫描容积法在操作8次后可熟练掌握；熟练掌握后，操作时间较排水法缩短，更为简单实用。3D扫描容积法有良好的评定者间信度和效标关联效度。3D扫描容积法可以替代排水法作为上肢远端体积测量的一种新方法。

关键词: 上肢, 体积, 3D扫描容积法, 排水法, 学习曲线, 测量, 信度, 效度

Abstract:

Objective To clarify the feasibility of the 3D scanning volume method for distal upper limb volume measurement, and to analyze its scorer reliability and criterion-related validity.

Methods From January to March, 2022, a therapist (operator A) who had not been exposed to 3D scanning volume method and water displacement method was trained to use a handheld 3D laser scanner and a spilt cup to measure the volume of a PVC distal upper limb model. The operation time of 30 operations of each method was recorded. The learning curves of the two methods were plotted using cumulative sum (CUSUM) analysis. The curve was cut into the learning stage and the mastery stage by the vertex of peak. The times required to reach the mastery stage and the operation time of the mastery stage for the two methods were recorded. A total of 20 healthy subjects were recruited from Huashan Hospital of Fudan University. Two trained therapists (operator A and operator B) measured the bilateral distal upper limb volume using a handheld 3D laser scanner, and operator A measured the bilateral distal upper limb volume using a spilt cup.

Results The fitting learning curve of the 3D scanning volume method (R² = 0.984) reached its peak after eight times of operation; while that of the water displacement method (R² = 0.494) reached its peak after five times of operation. At mastery stage, the operator spent less time using 3D scanning volume method than using water displacement method (P < 0.05). The intraclass correlation coefficient between the two operators were both 0.979 for bilateral distal upper limb volume measure (P < 0.001). The Pearson coefficients was above 0.979 between 3D scanning volume method and water displacement method (P < 0.001).

Conclusion A therapist can master the use of the 3D scanning volume method after eight times of operation, and the operation time of 3D scanning volume method is shorter than that of water displacement method at mastery stage. The 3D scanning volume method is well reliable and valid, that can be used as an alternative to the water displacement method for distal upper limb volumetric measurement.

Key words: upper limb, volume, 3D scanning volume method, water displacement method, learning curve, measurement, reliability, validity

中图分类号:

R493

邱晓, 凌骏麒, 从洋洋, 白玉龙. 3D扫描容积法评定上肢远端体积的信度和效度[J]. 《中国康复理论与实践》, 2023, 29(3): 364-367.

QIU Xiao, LING Junqi, CONG Yangyang, BAI Yulong. Feasibility, reliability and validity of a 3D scanning volume measurement for distal upper limb volume[J]. 《Chinese Journal of Rehabilitation Theory and Practice》, 2023, 29(3): 364-367.

图/表 3

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侧别	操作者A	操作者B	ICC	P值
左手	318.95±65.82	324.99±79.50	0.979	< 0.001
右手	312.61±66.46	318.95±65.82	0.979	< 0.001

侧别	3D扫描容积法	排水法	r值	P值
左手	318.95±65.82	320.97±80.26	0.979	< 0.001
右手	312.61±66.46	310.76±65.60	0.984	< 0.001

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3D扫描容积法评定上肢远端体积的信度和效度

Feasibility, reliability and validity of a 3D scanning volume measurement for distal upper limb volume

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