Which motor-cognitive abilities underlie the digital Trail-Making Test? Decomposing various test scores to detect cognitive impairment in Parkinson's disease-Pilot study.

IF 1.7 4区 心理学
Soo-Yong Park, Nadja Schott
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引用次数: 0

Abstract

Since Parkinson's disease (PD) is a heterogeneous disorder with symptoms, such as tremors, gait and speech disturbances, or memory loss, individualized diagnostics are needed to optimize treatment. In their current form, the typical paper-pencil methods traditionally used to track disease progression are too coarse to capture the subtleties of clinical phenomena. For this reason, digital biomarkers that capture, for example, motor function, cognition, and behavior using apps, wearables, and tracking systems are becoming increasingly established. However, given the high prevalence of cognitive impairment in PD, digital cognitive biomarkers to predict mental progression are important in clinical practice. This pilot study aimed to identify those components of our digital version of the TMT (dTMT) that allow discrimination between PD patients with and without cognitive deficits. A total of 30 healthy control (age 66.3 ± 8.61) and 30 participants with PD (age 68.3 ± 9.66) performed the dTMT using a touch-sensitive tablet to capture enhanced performance metrics, such as the speed between and inside circles. The decomposition of cognitive abilities based on integrating additional variables in the dTMT revealed that the Parkinson's disease group was significantly more sensitive to parameters of inhibitory control. In contrast, the mild cognitive impairment group was sensitive to parameters of cognitive flexibility and working memory. The dTMT allows objective, ecologically valid, and long-term cognitive and fine-motor performance tracking, suggesting its potential as a digital biomarker in neurodegenerative disorders.

哪些运动认知能力是数字寻迹测试的基础?分解各种测试得分以检测帕金森病患者的认知障碍--试点研究。
由于帕金森病(PD)是一种具有震颤、步态和言语障碍或记忆力减退等症状的异质性疾病,因此需要进行个体化诊断以优化治疗。目前,传统上用于跟踪疾病进展的典型纸笔方法过于粗糙,无法捕捉到临床现象的微妙之处。因此,使用应用程序、可穿戴设备和跟踪系统来捕捉运动功能、认知和行为等方面的数字生物标志物正变得越来越成熟。然而,鉴于认知障碍在帕金森病中的高发病率,预测精神进展的数字认知生物标志物在临床实践中非常重要。这项试点研究旨在确定我们的数字版 TMT(dTMT)中哪些部分可以区分有认知障碍和无认知障碍的帕金森病患者。共有 30 名健康对照者(年龄为 66.3 ± 8.61)和 30 名患有帕金森病的参与者(年龄为 68.3 ± 9.66)使用触摸感应平板电脑进行了 dTMT,以捕捉增强的性能指标,如圆圈之间和圆圈内部的速度。根据对 dTMT 中附加变量的整合对认知能力进行分解后发现,帕金森病组对抑制控制参数的敏感度明显更高。相比之下,轻度认知障碍组对认知灵活性和工作记忆的参数更为敏感。dTMT 可以对认知和精细运动表现进行客观、生态学有效的长期跟踪,表明它具有作为神经退行性疾病数字生物标记物的潜力。
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来源期刊
Applied Neuropsychology-Adult
Applied Neuropsychology-Adult CLINICAL NEUROLOGY-PSYCHOLOGY
自引率
11.80%
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0
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>12 weeks
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