. 2024 Nov 3:10:20552076241293597.

doi: 10.1177/20552076241293597. eCollection 2024 Jan-Dec.

An IoT-based cognitive impairment detection device: A newly proposed method in older adults care-choice reaction time-device development and data-driven validation

Affiliations

¹ The Space Applications and Technologies Laboratory, Institute of Space Science-Subsidiary of INFLPR (National Institute for Laser, Plasma and Radiation Physics), Magurele, Romania.
² Department of Automatics and Information Technology, Faculty of Electrical Engineering and Computer Science, Transilvania University of Brasov, Brasov, Romania.
³ Centre for Innovative Models for Aging Care and Technology, IRCCS INRCA (Scientific Institute for Research, Hospitalization and Healthcare-National Institute of Health and Science on Aging), Ancona, Italy.
⁴ Department of Psychology, Education and Teacher Training, Faculty of Psychology and Education Sciences, Brasov, Romania.
⁵ Department of Devices, Circuits and Electronic Architectures, Faculty of Electronics, Telecommunications and Information Technology, National University of Science and Technology Politehnica Bucharest, Bucharest, Romania.
⁶ Internal Medicine Department, Bucharest University Emergency Hospital, Bucharest, Romania.
⁷ Faculty of General Medicine, Carol Davila University of Medicine and Pharmacy, Bucharest, Romania.

PMID: 39502483
PMCID: PMC11536570
DOI: 10.1177/20552076241293597

An IoT-based cognitive impairment detection device: A newly proposed method in older adults care-choice reaction time-device development and data-driven validation

Cristian Vizitiu et al. Digit Health. 2024.

. 2024 Nov 3:10:20552076241293597.

doi: 10.1177/20552076241293597. eCollection 2024 Jan-Dec.

Authors

Affiliations

¹ The Space Applications and Technologies Laboratory, Institute of Space Science-Subsidiary of INFLPR (National Institute for Laser, Plasma and Radiation Physics), Magurele, Romania.
² Department of Automatics and Information Technology, Faculty of Electrical Engineering and Computer Science, Transilvania University of Brasov, Brasov, Romania.
³ Centre for Innovative Models for Aging Care and Technology, IRCCS INRCA (Scientific Institute for Research, Hospitalization and Healthcare-National Institute of Health and Science on Aging), Ancona, Italy.
⁴ Department of Psychology, Education and Teacher Training, Faculty of Psychology and Education Sciences, Brasov, Romania.
⁵ Department of Devices, Circuits and Electronic Architectures, Faculty of Electronics, Telecommunications and Information Technology, National University of Science and Technology Politehnica Bucharest, Bucharest, Romania.
⁶ Internal Medicine Department, Bucharest University Emergency Hospital, Bucharest, Romania.
⁷ Faculty of General Medicine, Carol Davila University of Medicine and Pharmacy, Bucharest, Romania.

PMID: 39502483
PMCID: PMC11536570
DOI: 10.1177/20552076241293597

Abstract

Background: Research shows that older adults' performance on choice reaction time (CRT) tests can predict cognitive decline. A simple CRT tool could help detect mild cognitive impairment (MCI) and preclinical dementia, allowing for further stratification of cognitive disorders on-site or via telemedicine.

Objective: The primary objective was to develop a CRT testing device and protocol to differentiate between two cognitive impairment categories: (a) subjective cognitive decline (SCD) and non-amnestic mild cognitive impairment (na-MCI), and (b) amnestic mild cognitive impairment (a-MCI) and multiple-domain a-MCI (a-MCI-MD).

Methods: A pilot study in Italy and Romania with 35 older adults (ages 61-85) assessed cognitive function using the Mini-Mental State Examination (MMSE) and a CRT color response task. Reaction time, accuracy, and demographics were recorded, and machine learning classifiers analyzed performance differences to predict preclinical dementia and screen for mild cognitive deficits.

Results: Moderate correlations were found between the MMSE score and both mean reaction time and mean accuracy rate. There was a significant difference between the two groups' reaction time for blue light, but not for any other colors or for mean accuracy rate. SVM and RUSBoosted trees were found to have the best preclinical dementia prediction capabilities among the tested classifier algorithms, both presenting an accuracy rate of 77.1%.

Conclusions: CRT testing with machine learning effectively differentiates cognitive capacities in older adults, facilitating early diagnosis and stratification of neurocognitive diseases and can also identify impairments from stressors like dehydration and sleep deprivation. This study highlights the potential of portable CRT devices for monitoring cognitive function, including SCD and MCI.

Keywords: Elderly medicine; connected devices personalized medicine; machine learning general; mental health psychology; remote patient monitoring personalized medicine; well-being psychology.

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Conflict of interest statement

The authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Figures

**Figure 1.**
Choice reaction time device.

**Figure 2.**
Flowchart (FSM) of the CRT system as described in the study of Stadlbauer et al. and Bira.

**Figure 3.**
Hardware schematic of I/O in the CRT device.^,

**Figure 4.**
PCA prediction on training set—CRT data.

**Figure 5.**
PCA prediction on training set—CRT and demographic data.

**Figure 6.**
Results of NIST randomness tests.

See this image and copyright information in PMC

References

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An IoT-based cognitive impairment detection device: A newly proposed method in older adults care-choice reaction time-device development and data-driven validation

Affiliations

An IoT-based cognitive impairment detection device: A newly proposed method in older adults care-choice reaction time-device development and data-driven validation

Authors

Affiliations

Abstract

Conflict of interest statement

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Abstract

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