Accuracy and Reliability of At-Home Quantification of Motor Impairments Using a Computer-Based Pointing Task with Children with Ataxia-Telangiectasia

IF 2.5 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS ACM Transactions on Accessible Computing Pub Date : 2023-01-25 DOI:10.1145/3581790
Vineet Pandey, Ne Khan, Anoopum S. Gupta, Krzysztof Z Gajos
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Abstract

Methods for obtaining accurate quantitative assessments of motor impairments are essential in accessibility research, design of adaptive ability-based assistive technologies, as well as in clinical care and medical research. Currently, such assessments are typically performed in controlled laboratory or clinical settings under professional supervision. Emerging approaches for collecting data in unsupervised settings have been shown to produce valid data when aggregated over large populations, but it is not yet established whether in unsupervised settings measures of research or clinical significance can be collected accurately and reliably for individuals. We conducted a study with 13 children with ataxia-telangiectasia and 9 healthy children to analyze the validity, test-retest reliability, and acceptability of at-home use of a recent active digital phenotyping system, called Hevelius. Hevelius produces 32 measures derived from the movement trajectories of the mouse cursor and then generates a quantitative estimate of motor impairment in the dominant arm using the dominant arm component of the Brief Ataxia Rating Scale (BARS). The severity score estimates generated by Hevelius from single at-home sessions deviated from clinician-assigned BARS scores more than the severity score estimates generated from single sessions conducted under researcher supervision. However, taking a median of as few as 2 consecutive sessions produced severity score estimates that were as accurate or better than the estimates produced from single supervised sessions. Further, aggregating as few as 2 consecutive sessions resulted in good test-retest reliability (ICC = 0.81 for A-T participants). This work demonstrated the feasibility of performing accurate and reliable quantitative assessments of individual motor impairments in the dominant arm through tasks performed at home without supervision by the researchers. Further work is needed, however, to assess how broadly these results generalize.
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使用计算机指向任务对患有共济失调-毛细血管扩张的儿童进行运动损伤定量的准确性和可靠性
在无障碍研究、基于适应能力的辅助技术设计以及临床护理和医学研究中,对运动障碍进行准确定量评估的方法至关重要。目前,此类评估通常在专业监督下的受控实验室或临床环境中进行。在无监督环境中收集数据的新方法已被证明在大量人群中汇总时产生有效的数据,但尚未确定在无监督环境中是否可以准确可靠地收集个人的研究或临床意义措施。我们对13名患有失调性毛细血管扩张症的儿童和9名健康儿童进行了一项研究,分析了一种名为Hevelius的最新活跃数字表型系统在家庭使用的有效性、重测信度和可接受性。Hevelius从鼠标光标的运动轨迹中得出32种测量方法,然后使用简短共济失调评定量表(BARS)的优势臂成分对优势臂的运动损伤进行定量估计。Hevelius从单次在家治疗中得出的严重程度评分估计值与临床医生指定的BARS评分偏差大于在研究者监督下进行的单次治疗得出的严重程度评分估计值。然而,取2个连续疗程的中位数产生的严重性评分估计值与单一监督疗程产生的估计值一样准确或更好。此外,即使只有2个连续的会话,也会产生良好的重测信度(A-T参与者的ICC = 0.81)。这项工作证明了在没有研究人员监督的情况下,通过在家完成的任务,对优势臂的个体运动损伤进行准确可靠的定量评估的可行性。然而,需要进一步的工作来评估这些结果的普遍性。
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来源期刊
ACM Transactions on Accessible Computing
ACM Transactions on Accessible Computing COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
CiteScore
6.20
自引率
8.30%
发文量
43
期刊介绍: Computer and information technologies have re-designed the way modern society operates. Their widespread use poses both opportunities and challenges for people who experience various disabilities including age-related disabilities. That is, while there are new avenues to assist individuals with disabilities and provide tools and resources to alleviate the traditional barriers encountered by these individuals, in many cases the technology itself presents barriers to use. ACM Transactions on Accessible Computing (TACCESS) is a quarterly peer-reviewed journal that publishes refereed articles addressing issues of computing that seek to address barriers to access, either creating new solutions or providing for the more inclusive design of technology to provide access for individuals with diverse abilities. The journal provides a technical forum for disseminating innovative research that covers either applications of computing and information technologies to provide assistive systems or inclusive technologies for individuals with disabilities. Some examples are web accessibility for those with visual impairments and blindness as well as web search explorations for those with limited cognitive abilities, technologies to address stroke rehabilitation or dementia care, language support systems deaf signers or those with limited language abilities, and input systems for individuals with limited ability to control traditional mouse and keyboard systems. The journal is of particular interest to SIGACCESS members and delegates to its affiliated conference (i.e., ASSETS) as well as other international accessibility conferences. It serves as a forum for discussions and information exchange between researchers, clinicians, and educators; including rehabilitation personnel who administer assistive technologies; and policy makers concerned with equitable access to information technologies.
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