TY - JOUR
T1 - Edge time series components of functional connectivity and cognitive function in Alzheimer’s disease
AU - Chumin, Evgeny J.
AU - Cutts, Sarah A.
AU - Risacher, Shannon L.
AU - Apostolova, Liana G.
AU - Farlow, Martin R.
AU - McDonald, Brenna C.
AU - Wu, Yu Chien
AU - Betzel, Richard
AU - Saykin, Andrew J.
AU - Sporns, Olaf
N1 - Publisher Copyright:
© The Author(s) 2023.
PY - 2024/2
Y1 - 2024/2
N2 - Understanding the interrelationships of brain function as measured by resting-state magnetic resonance imaging and neuropsychological/behavioral measures in Alzheimer’s disease is key for advancement of neuroimaging analysis methods in clinical research. The edge time-series framework recently developed in the field of network neuroscience, in combination with other network science methods, allows for investigations of brain-behavior relationships that are not possible with conventional functional connectivity methods. Data from the Indiana Alzheimer’s Disease Research Center sample (53 cognitively normal control, 47 subjective cognitive decline, 32 mild cognitive impairment, and 20 Alzheimer’s disease participants) were used to investigate relationships between functional connectivity components, each derived from a subset of time points based on co-fluctuation of regional signals, and measures of domain-specific neuropsychological functions. Multiple relationships were identified with the component approach that were not found with conventional functional connectivity. These involved attentional, limbic, frontoparietal, and default mode systems and their interactions, which were shown to couple with cognitive, executive, language, and attention neuropsychological domains. Additionally, overlapping results were obtained with two different statistical strategies (network contingency correlation analysis and network-based statistics correlation). Results demonstrate that connectivity components derived from edge time-series based on co-fluctuation reveal disease-relevant relationships not observed with conventional static functional connectivity.
AB - Understanding the interrelationships of brain function as measured by resting-state magnetic resonance imaging and neuropsychological/behavioral measures in Alzheimer’s disease is key for advancement of neuroimaging analysis methods in clinical research. The edge time-series framework recently developed in the field of network neuroscience, in combination with other network science methods, allows for investigations of brain-behavior relationships that are not possible with conventional functional connectivity methods. Data from the Indiana Alzheimer’s Disease Research Center sample (53 cognitively normal control, 47 subjective cognitive decline, 32 mild cognitive impairment, and 20 Alzheimer’s disease participants) were used to investigate relationships between functional connectivity components, each derived from a subset of time points based on co-fluctuation of regional signals, and measures of domain-specific neuropsychological functions. Multiple relationships were identified with the component approach that were not found with conventional functional connectivity. These involved attentional, limbic, frontoparietal, and default mode systems and their interactions, which were shown to couple with cognitive, executive, language, and attention neuropsychological domains. Additionally, overlapping results were obtained with two different statistical strategies (network contingency correlation analysis and network-based statistics correlation). Results demonstrate that connectivity components derived from edge time-series based on co-fluctuation reveal disease-relevant relationships not observed with conventional static functional connectivity.
KW - Alzheimer’s disease
KW - Brain networks
KW - Brain-behavior relationships
KW - Functional connectivity
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U2 - 10.1007/s11682-023-00822-1
DO - 10.1007/s11682-023-00822-1
M3 - Article
C2 - 38008852
AN - SCOPUS:85178306008
SN - 1931-7557
VL - 18
SP - 243
EP - 255
JO - Brain Imaging and Behavior
JF - Brain Imaging and Behavior
IS - 1
ER -