It’s about time: Linking dynamical systems with human neuroimaging to understand the brain

John, Yohan J.; Sawyer, Kayle S.; Srinivasan, Karthik; Müller, Eli J.; Munn, Brandon; Shine, James M.

doi:10.1162/netn_a_00230

Cited by 31 publications

(28 citation statements)

References 147 publications

(228 reference statements)

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“…These brain states correspond to those described by the hypo-frontality hypothesis [ 88 ], which are often achieved immediately after endurance sports training and lead to effects on executive functions with prolonged use. While endurance exercises normally require more than 15 min of relatively high intensity to achieve these brain states and can rarely be applied multiple times a day, DL training appears to achieve similar brain states after only 3 min [ 89 ] and can be applied multiple times a day. In contrast to CI theory, the overloading of the working memory as an explanation for the interference phenomenon after the acquisition phase in CI learning by even more various exercises in DL did not lead to an interfered performance in the post-test but rather led to a qualitative switch in information processing during the processing of multiple gross motor tasks by getting rid of the controlling and limiting activities of the frontal lobe to be able to use additional neuronal resources [ 63 , 90 ].…”

Section: Discussionmentioning

confidence: 99%

Learning Multiple Movements in Parallel—Accurately and in Random Order, or Each with Added Noise?

Apidogo

Burdack

Schöllhorn

2022

IJERPH

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Traditionally, studies on learning have mainly focused on the acquisition and stabilization of only single movement tasks. In everyday life and in sports, however, several new skills often must be learned in parallel. The extent to which the similarity of the movements or the order in which they are learned influences success has only recently begun to attract increased interest. This study aimed to compare the effects of CI in random practice order (high CI) with differential learning (DL) in learning three volleyball skills in parallel. Thirty-two advanced beginners in volleyball (mean age = 24, SD = 2.7) voluntarily participated in the study. Within a pre-, post-, retention test design, an intervention of six weeks and one week retention phase, the effects of three practice protocols of a CI, DL, and control (CO) group were compared. Three different volleyball skills (underhand pass, overhand pass, and overhand serve) were trained with emphasis on accuracy. Results showed statistically significant higher rates of improvement in the acquisition and learning phases for the DL group compared to the CI and CO groups. The differences were associated with moderate to high effect sizes in all individual skills and in the combined skills. The findings show more agreement with DL than with CI theory.

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Section: Discussionmentioning

confidence: 99%

Learning Multiple Movements in Parallel—Accurately and in Random Order, or Each with Added Noise?

Apidogo

Burdack

Schöllhorn

2022

IJERPH

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“…Coupled NMMs are rapidly moving from mathematical curiosities to real applications in healthy and diseased brains (Honey and Sporns, 2008 ; Alstott et al, 2009 ; de Haan et al, 2012 ; Yang et al, 2016 ; Zimmermann et al, 2018 ; Singh et al, 2020 ) and can potentially be used to investigate biological processes such as neuromodulation (Shine et al, 2018 , 2021 ; John et al, 2022 ). Such NMMs have also been simulated via the Virtual Brain platform—an open source neuroinformatics tool that provides access to brain network simulation tools (Ritter et al, 2013 ; Sanz-Leon et al, 2015 ).…”

Section: Mathematical Modelsmentioning

confidence: 99%

Structure-function models of temporal, spatial, and spectral characteristics of non-invasive whole brain functional imaging

2022

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We review recent advances in using mathematical models of the relationship between the brain structure and function that capture features of brain dynamics. We argue the need for models that can jointly capture temporal, spatial, and spectral features of brain functional activity. We present recent work on spectral graph theory based models that can accurately capture spectral as well as spatial patterns across multiple frequencies in MEG reconstructions.

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“…FCD is an indicator of the brain's capacity to explore flexibly a large range of brain states, which reduces with cognitive decline in both healthy aging (Battaglia et al, 2020) and Alzheimer's disease (Córdova-Palomera et al, 2017). Additionally, there is a growing body of literature that observed evidence of a nonlinear mapping between SC and FC (John et al, 2022;Shine et al, 2019) and especially between interhemispheric SC and homotopic FC (Mollink et al, 2019;Roland et al, 2017), between SC and FCD (John et al, 2022;Naik et al, 2017;Shen et al, 2015) as well as respective age-related findings (Esfahlani et al, 2021;Naik et al, 2017;Roland et al, 2017), which might benefit from a more holistic approach based on modeling to explain the link between structure and function. To deepen the understanding of the complex link between structural changes, functional changes and cognitive decline, the current challenge for aging models is then twofold: on the one hand, the comprehension of the cause-effect of SC and its functional phenotype and on the other, the link to cognitive decline as suggested by various aging theories (Goh, 2011;Naik et al, 2017;Reuter-Lorenz & Park, 2014).…”

Section: Introductionmentioning

confidence: 99%

The virtual aging brain: a model-driven explanation for cognitive decline in older subjects

Lavanga

Stumme

Yalçınkaya

et al. 2022

Preprint

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Healthy aging is accompanied by heterogeneous decline of cognitive abilities among individuals, especially during senescence. The mechanisms of this variability are not understood, but have been associated with the reorganization of white matter fiber tracts and the functional co-activations of brain regions. Here, we built a causal inference framework to provide mechanistic insight into the link between structural connectivity and brain function, informed by brain imaging data and network modeling. By applying various degrees of interhemispheric degradation of structural connectivity, we were not only able to reproduce the age-related decline in interhemispheric functional communication and the associated dynamical flexibility, but we obtained an increase of global modulation of structural connectivity over the brain function during senescence. Notably, the increase in modulation between structural connectivity and brian function was higher in magnitude and steeper in its increase in older adults with poor cognitive performance. We independently validated the causal hypothesis of our framework via a Bayesian approach based on deep-learning. The current results might be the first mechanistic demonstration of dedifferentiation and scaffolding during aging leading to cognitive decline demonstrated in a large cohort.

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It’s about time: Linking dynamical systems with human neuroimaging to understand the brain

Cited by 31 publications

References 147 publications

Learning Multiple Movements in Parallel—Accurately and in Random Order, or Each with Added Noise?

Learning Multiple Movements in Parallel—Accurately and in Random Order, or Each with Added Noise?

Structure-function models of temporal, spatial, and spectral characteristics of non-invasive whole brain functional imaging

The virtual aging brain: a model-driven explanation for cognitive decline in older subjects

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