Processing speed and attention training modifies autonomic flexibility: A mechanistic intervention study

Processing speed and attention training modifies autonomic flexibility: A mechanistic intervention study

Adaptation capacity is critical for maintaining cognition, yet it is understudied in groups at risk for dementia. Autonomic nervous system (ANS) is critical for neurovisceral integration and is a key contributor to adaptation capacity. To determine the central nervous system’s top-down regulation of...

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Main Authors: Feng V. Lin, Ye Tao, Quanjing Chen, Mia Anthony, Zhengwu Zhang, Duje Tadin, Kathi L. Heffner
Format: Article
Language:English
Published: Elsevier 2020-06-01
Series:NeuroImage
Subjects:
Vagal control
Autonomic flexibility
Processing speed and attention
Aging
Salience network
Online Access:http://www.sciencedirect.com/science/article/pii/S1053811920302172
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spelling doaj-1ef9af9bed4543759aba29e77e4cb0f92021-02-15T04:12:34ZengElsevierNeuroImage1095-95722020-06-01213116730Processing speed and attention training modifies autonomic flexibility: A mechanistic intervention studyFeng V. Lin0Ye Tao1Quanjing Chen2Mia Anthony3Zhengwu Zhang4Duje Tadin5Kathi L. Heffner6Elaine C. Hubbard Center for Nursing Research on Aging, School of Nursing, University of Rochester Medical Center, USA; Department of Psychiatry, School of Medicine and Dentistry, University of Rochester Medical Center, USA; Department of Brain and Cognitive Sciences, University of Rochester, USA; Department of Neuroscience, School of Medicine and Dentistry, University of Rochester Medical Center, USA; Department of Neurology, School of Medicine and Dentistry, University of Rochester Medical Center, USA; Corresponding author. CogT Lab, Center for Advanced Brain Imaging and Neurophysiology (CABIN), 430 Elmwood Ave, Rochester, NY, 14620, USA.Department of Electrical and Computational Engineering, University of Rochester, USAElaine C. Hubbard Center for Nursing Research on Aging, School of Nursing, University of Rochester Medical Center, USA; Department of Psychiatry, School of Medicine and Dentistry, University of Rochester Medical Center, USADepartment of Brain and Cognitive Sciences, University of Rochester, USADepartment of Biostatics and Computational Biology, School of Medicine and Dentistry, University of Rochester Medical Center, USADepartment of Brain and Cognitive Sciences, University of Rochester, USA; Department of Neuroscience, School of Medicine and Dentistry, University of Rochester Medical Center, USAElaine C. Hubbard Center for Nursing Research on Aging, School of Nursing, University of Rochester Medical Center, USA; Department of Psychiatry, School of Medicine and Dentistry, University of Rochester Medical Center, USA; Division of Geriatrics & Aging, Department of Medicine, School of Medicine and Dentistry, University of Rochester Medical Center, USAAdaptation capacity is critical for maintaining cognition, yet it is understudied in groups at risk for dementia. Autonomic nervous system (ANS) is critical for neurovisceral integration and is a key contributor to adaptation capacity. To determine the central nervous system’s top-down regulation of ANS, we conducted a mechanistic randomized controlled trial study, using a 6-week processing speed and attention (PS/A)-targeted intervention. Eighty-four older adults with amnestic mild cognitive impairment (aMCI) were randomized to a 6-week PS/A-targeted intervention or an active control without PS/A. Utilizing repeated measures (i.e., PS/A test different from the intervention, resting and cognitive task-based ECG, and resting fMRI) at baseline, immediately post-intervention (post-test), and 6-month follow-up, we aimed to test whether PS/A causally influences vagal control of ANS via their shared central neural pathways in aMCI. We indexed vagal control of ANS using high-frequency heart rate variability (HF-HRV) extracted from ECG data. Functional brain connectivity patterns were extracted from fMRI using advanced statistical tools. Compared to the control group, the intervention group showed significant improvement in PS/A, HF-HRV, salience network (SN), central executive network (CEN), and frontal parietal network (FPN) connectivity at post-test; the effect on SN, CEN, and FPN remained at 6-month follow-up. Changes in PS/A and SN connectivity significantly predicted change in HF-HRV from baseline to post-test and/or 6-month-follow-up. Age, neurodegeneration, nor sex did not affect these relationships. This work provides novel support for top-down regulation of PS/A and associated SN on vagal control of ANS. Intervening PS/A may be a viable approach for promoting adaptation capacity in groups at risk for dementia.http://www.sciencedirect.com/science/article/pii/S1053811920302172Vagal controlAutonomic flexibilityProcessing speed and attentionAgingSalience network
collection DOAJ
language English
format Article
sources DOAJ
author Feng V. Lin
Ye Tao
Quanjing Chen
Mia Anthony
Zhengwu Zhang
Duje Tadin
Kathi L. Heffner
spellingShingle Feng V. Lin
Ye Tao
Quanjing Chen
Mia Anthony
Zhengwu Zhang
Duje Tadin
Kathi L. Heffner
Processing speed and attention training modifies autonomic flexibility: A mechanistic intervention study
NeuroImage
Vagal control
Autonomic flexibility
Processing speed and attention
Aging
Salience network
author_facet Feng V. Lin
Ye Tao
Quanjing Chen
Mia Anthony
Zhengwu Zhang
Duje Tadin
Kathi L. Heffner
author_sort Feng V. Lin
title Processing speed and attention training modifies autonomic flexibility: A mechanistic intervention study
title_short Processing speed and attention training modifies autonomic flexibility: A mechanistic intervention study
title_full Processing speed and attention training modifies autonomic flexibility: A mechanistic intervention study
title_fullStr Processing speed and attention training modifies autonomic flexibility: A mechanistic intervention study
title_full_unstemmed Processing speed and attention training modifies autonomic flexibility: A mechanistic intervention study
title_sort processing speed and attention training modifies autonomic flexibility: a mechanistic intervention study
publisher Elsevier
series NeuroImage
issn 1095-9572
publishDate 2020-06-01
description Adaptation capacity is critical for maintaining cognition, yet it is understudied in groups at risk for dementia. Autonomic nervous system (ANS) is critical for neurovisceral integration and is a key contributor to adaptation capacity. To determine the central nervous system’s top-down regulation of ANS, we conducted a mechanistic randomized controlled trial study, using a 6-week processing speed and attention (PS/A)-targeted intervention. Eighty-four older adults with amnestic mild cognitive impairment (aMCI) were randomized to a 6-week PS/A-targeted intervention or an active control without PS/A. Utilizing repeated measures (i.e., PS/A test different from the intervention, resting and cognitive task-based ECG, and resting fMRI) at baseline, immediately post-intervention (post-test), and 6-month follow-up, we aimed to test whether PS/A causally influences vagal control of ANS via their shared central neural pathways in aMCI. We indexed vagal control of ANS using high-frequency heart rate variability (HF-HRV) extracted from ECG data. Functional brain connectivity patterns were extracted from fMRI using advanced statistical tools. Compared to the control group, the intervention group showed significant improvement in PS/A, HF-HRV, salience network (SN), central executive network (CEN), and frontal parietal network (FPN) connectivity at post-test; the effect on SN, CEN, and FPN remained at 6-month follow-up. Changes in PS/A and SN connectivity significantly predicted change in HF-HRV from baseline to post-test and/or 6-month-follow-up. Age, neurodegeneration, nor sex did not affect these relationships. This work provides novel support for top-down regulation of PS/A and associated SN on vagal control of ANS. Intervening PS/A may be a viable approach for promoting adaptation capacity in groups at risk for dementia.
topic Vagal control
Autonomic flexibility
Processing speed and attention
Aging
Salience network
url http://www.sciencedirect.com/science/article/pii/S1053811920302172
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