Assessing Neural Compensation with Visuospatial Working Memory Load Using Near-Infrared Imaging
Alzheimer's disease is characterized by the progressive deterioration of cognitive abilities particularly working memory while mild cognitive impairment (MCI) represents its prodrome. It is generally believed that neural compensation is intact in MCI but absent in Alzheimer's disease. This...
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2020
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my.utp.eprints.233842021-08-19T07:22:57Z Assessing Neural Compensation with Visuospatial Working Memory Load Using Near-Infrared Imaging Ung, W.C. Tang, T.B. Yap, K.H. Ebenezer, E.G.M. Chin, P.S. Nordin, N. Chan, S.C. Yip, H.L. Lu, C.-K. Kiguchi, M. Alzheimer's disease is characterized by the progressive deterioration of cognitive abilities particularly working memory while mild cognitive impairment (MCI) represents its prodrome. It is generally believed that neural compensation is intact in MCI but absent in Alzheimer's disease. This study investigated the effects of increasing task load as a means to induce neural compensation through a novel visual working memory (VSWM) task using functional near-infrared spectroscopy (fNIRS). The bilateral prefrontal cortex (PFC) was explored due to its relevance in VSWM and neural compensation. A total of 31 healthy controls (HC), 12 patients with MCI and 18 patients with mild Alzheimer's disease (mAD) were recruited. Although all groups showed sensitivity in terms of behavioral performance (i.e. score) towards increasing task load (level 1 to 3), only in MCI load effect on cortical response (as measured by fNIRS) was significant. At lower task load, bilateral PFC activation did not differ between MCI and HC. Neural compensation in the form of hyperactivation was only noticeable in MCI with a moderate task load. Lack of hyperactivation in mAD, coupled with significantly poorer task performance across task loads, suggested the inability to compensate due to a greater degree of neurodegeneration. Our findings provided an insight into the interaction of cognitive load theory and neural compensatory mechanisms. The experiment results demonstrated the feasibility of inducing neural compensation with the proposed VSWM task at the right amount of cognitive load. This may provide a promising avenue to develop an effective cognitive training and rehabilitation for dementia population. © 2001-2011 IEEE. Institute of Electrical and Electronics Engineers Inc. 2020 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85078354243&doi=10.1109%2fTNSRE.2019.2956459&partnerID=40&md5=64eee0a12f3f5e5633fe2ba46ed15e63 Ung, W.C. and Tang, T.B. and Yap, K.H. and Ebenezer, E.G.M. and Chin, P.S. and Nordin, N. and Chan, S.C. and Yip, H.L. and Lu, C.-K. and Kiguchi, M. (2020) Assessing Neural Compensation with Visuospatial Working Memory Load Using Near-Infrared Imaging. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 28 (1). pp. 13-22. http://eprints.utp.edu.my/23384/ |
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Alzheimer's disease is characterized by the progressive deterioration of cognitive abilities particularly working memory while mild cognitive impairment (MCI) represents its prodrome. It is generally believed that neural compensation is intact in MCI but absent in Alzheimer's disease. This study investigated the effects of increasing task load as a means to induce neural compensation through a novel visual working memory (VSWM) task using functional near-infrared spectroscopy (fNIRS). The bilateral prefrontal cortex (PFC) was explored due to its relevance in VSWM and neural compensation. A total of 31 healthy controls (HC), 12 patients with MCI and 18 patients with mild Alzheimer's disease (mAD) were recruited. Although all groups showed sensitivity in terms of behavioral performance (i.e. score) towards increasing task load (level 1 to 3), only in MCI load effect on cortical response (as measured by fNIRS) was significant. At lower task load, bilateral PFC activation did not differ between MCI and HC. Neural compensation in the form of hyperactivation was only noticeable in MCI with a moderate task load. Lack of hyperactivation in mAD, coupled with significantly poorer task performance across task loads, suggested the inability to compensate due to a greater degree of neurodegeneration. Our findings provided an insight into the interaction of cognitive load theory and neural compensatory mechanisms. The experiment results demonstrated the feasibility of inducing neural compensation with the proposed VSWM task at the right amount of cognitive load. This may provide a promising avenue to develop an effective cognitive training and rehabilitation for dementia population. © 2001-2011 IEEE. |
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Article |
| author |
Ung, W.C. Tang, T.B. Yap, K.H. Ebenezer, E.G.M. Chin, P.S. Nordin, N. Chan, S.C. Yip, H.L. Lu, C.-K. Kiguchi, M. |
| spellingShingle |
Ung, W.C. Tang, T.B. Yap, K.H. Ebenezer, E.G.M. Chin, P.S. Nordin, N. Chan, S.C. Yip, H.L. Lu, C.-K. Kiguchi, M. Assessing Neural Compensation with Visuospatial Working Memory Load Using Near-Infrared Imaging |
| author_facet |
Ung, W.C. Tang, T.B. Yap, K.H. Ebenezer, E.G.M. Chin, P.S. Nordin, N. Chan, S.C. Yip, H.L. Lu, C.-K. Kiguchi, M. |
| author_sort |
Ung, W.C. |
| title |
Assessing Neural Compensation with Visuospatial Working Memory Load Using Near-Infrared Imaging |
| title_short |
Assessing Neural Compensation with Visuospatial Working Memory Load Using Near-Infrared Imaging |
| title_full |
Assessing Neural Compensation with Visuospatial Working Memory Load Using Near-Infrared Imaging |
| title_fullStr |
Assessing Neural Compensation with Visuospatial Working Memory Load Using Near-Infrared Imaging |
| title_full_unstemmed |
Assessing Neural Compensation with Visuospatial Working Memory Load Using Near-Infrared Imaging |
| title_sort |
assessing neural compensation with visuospatial working memory load using near-infrared imaging |
| publisher |
Institute of Electrical and Electronics Engineers Inc. |
| publishDate |
2020 |
| url |
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85078354243&doi=10.1109%2fTNSRE.2019.2956459&partnerID=40&md5=64eee0a12f3f5e5633fe2ba46ed15e63 http://eprints.utp.edu.my/23384/ |
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