Resting-state BOLD networks versus task-associated functional MRI for distinguishing Alzheimer's disease risk groups

To assess the ability of resting-state functional magnetic resonance imaging to distinguish known risk factors for AD, we evaluated 17 cognitively normal individuals with a family history of AD and at least one copy of the apolipoprotein e4 allele compared to 12 individuals who were not carriers of...

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Published inNeuroImage (Orlando, Fla.) Vol. 47; no. 4; pp. 1678 - 1690
Main Authors Fleisher, Adam S., Sherzai, Ayesha, Taylor, Curtis, Langbaum, Jessica B.S., Chen, Kewei, Buxton, Richard B.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.10.2009
Elsevier Limited
Subjects
Aged
Algorithms
Alzheimer Disease - diagnosis
Alzheimer's disease
APOE4
Brain
Default network
Diagnosis, Differential
Evoked Potentials
Female
fMRI
Humans
Image Enhancement - methods
Image Interpretation, Computer-Assisted - methods
Magnetic Resonance Imaging - methods
Male
Middle Aged
Nerve Net
NMR
Nuclear magnetic resonance
Older people
Reproducibility of Results
Rest
Risk Assessment
Risk Factors
Sensitivity and Specificity
Task Performance and Analysis
Default network
fMRI
Alzheimer's disease
APOE4
Online AccessGet full text

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Abstract To assess the ability of resting-state functional magnetic resonance imaging to distinguish known risk factors for AD, we evaluated 17 cognitively normal individuals with a family history of AD and at least one copy of the apolipoprotein e4 allele compared to 12 individuals who were not carriers of the APOE4 gene and did not have a family history of AD. Blood oxygen level dependent fMRI was performed evaluating encoding-associated signal and resting-state default mode network signal differences between the two risk groups. Neurocognitive testing revealed that the high risk group performed worse on category fluency testing, but the groups were equivalent on all other cognitive measures. During encoding of novel face–name pairs, there were no regions of encoding-associated BOLD activations that were different in the high risk group. Encoding-associated deactivations were greater in magnitude in the low risk group in the medial and right lateral parietal cortex, similar to findings in AD studies. The resting-state DMN analysis demonstrated nine regions in the prefrontal, orbital frontal, temporal and parietal lobes that distinguished the two risk groups. Resting-state DMN analysis could distinguish risk groups with an effect size of 3.35, compared to an effect size of 1.39 using encoding-associated fMRI techniques. Imaging of the resting state avoids performance related variability seen in activation fMRI, is less complicated to acquire and standardize, does not require radio-isotopes, and may be more effective at identifying functional pathology associated with AD risk compared to non-resting fMRI techniques.
AbstractList To assess the ability of resting-state functional magnetic resonance imaging to distinguish known risk factors for AD, we evaluated 17 cognitively normal individuals with a family history of AD and at least one copy of the apolipoprotein e4 allele compared to 12 individuals who were not carriers of the APOE4 gene and did not have a family history of AD. Blood oxygen level dependent fMRI was performed evaluating encoding-associated signal and resting-state default mode network signal differences between the two risk groups. Neurocognitive testing revealed that the high risk group performed worse on category fluency testing, but the groups were equivalent on all other cognitive measures. During encoding of novel face–name pairs, there were no regions of encoding-associated BOLD activations that were different in the high risk group. Encoding-associated deactivations were greater in magnitude in the low risk group in the medial and right lateral parietal cortex, similar to findings in AD studies. The resting-state DMN analysis demonstrated nine regions in the prefrontal, orbital frontal, temporal and parietal lobes that distinguished the two risk groups. Resting-state DMN analysis could distinguish risk groups with an effect size of 3.35, compared to an effect size of 1.39 using encoding-associated fMRI techniques. Imaging of the resting state avoids performance related variability seen in activation fMRI, is less complicated to acquire and standardize, does not require radio-isotopes, and may be more effective at identifying functional pathology associated with AD risk compared to non-resting fMRI techniques.
To assess the ability of resting-state functional magnetic resonance imaging to distinguish known risk factors for AD, we evaluated 17 cognitively normal individuals with a family history of AD and at least one copy of the apolipoprotein e4 allele compared to 12 individuals who were not carriers of the APOE4 gene and did not have a family history of AD. Blood oxygen level dependent fMRI was performed evaluating encoding-associated signal and resting-state default mode network signal differences between the two risk groups. Neurocognitive testing revealed that the high risk group performed worse on category fluency testing, but the groups were equivalent on all other cognitive measures. During encoding of novel face-name pairs, there were no regions of encoding-associated BOLD activations that were different in the high risk group. Encoding-associated deactivations were greater in magnitude in the low risk group in the medial and right lateral parietal cortex, similar to findings in AD studies. The resting-state DMN analysis demonstrated nine regions in the prefrontal, orbital frontal, temporal and parietal lobes that distinguished the two risk groups. Resting-state DMN analysis could distinguish risk groups with an effect size of 3.35, compared to an effect size of 1.39 using encoding-associated fMRI techniques. Imaging of the resting state avoids performance related variability seen in activation fMRI, is less complicated to acquire and standardize, does not require radio-isotopes, and may be more effective at identifying functional pathology associated with AD risk compared to non-resting fMRI techniques.To assess the ability of resting-state functional magnetic resonance imaging to distinguish known risk factors for AD, we evaluated 17 cognitively normal individuals with a family history of AD and at least one copy of the apolipoprotein e4 allele compared to 12 individuals who were not carriers of the APOE4 gene and did not have a family history of AD. Blood oxygen level dependent fMRI was performed evaluating encoding-associated signal and resting-state default mode network signal differences between the two risk groups. Neurocognitive testing revealed that the high risk group performed worse on category fluency testing, but the groups were equivalent on all other cognitive measures. During encoding of novel face-name pairs, there were no regions of encoding-associated BOLD activations that were different in the high risk group. Encoding-associated deactivations were greater in magnitude in the low risk group in the medial and right lateral parietal cortex, similar to findings in AD studies. The resting-state DMN analysis demonstrated nine regions in the prefrontal, orbital frontal, temporal and parietal lobes that distinguished the two risk groups. Resting-state DMN analysis could distinguish risk groups with an effect size of 3.35, compared to an effect size of 1.39 using encoding-associated fMRI techniques. Imaging of the resting state avoids performance related variability seen in activation fMRI, is less complicated to acquire and standardize, does not require radio-isotopes, and may be more effective at identifying functional pathology associated with AD risk compared to non-resting fMRI techniques.
Author Taylor, Curtis
Chen, Kewei
Buxton, Richard B.
Fleisher, Adam S.
Langbaum, Jessica B.S.
Sherzai, Ayesha
AuthorAffiliation 3 Department of Radiology University of California, San Diego
1 Banner Alzheimer's Institute, Phoenix, AZ
2 Department of Neuroscience University of California, San Diego
4 Loma Linda University Medical Center
AuthorAffiliation_xml – name: 1 Banner Alzheimer's Institute, Phoenix, AZ
– name: 3 Department of Radiology University of California, San Diego
– name: 4 Loma Linda University Medical Center
– name: 2 Department of Neuroscience University of California, San Diego
Author_xml – sequence: 1
  givenname: Adam S.
  surname: Fleisher
  fullname: Fleisher, Adam S.
  email: Adam.Fleisher@Bannerhealth.com
  organization: Banner Alzheimer's Institute, Phoenix, AZ, USA
– sequence: 2
  givenname: Ayesha
  surname: Sherzai
  fullname: Sherzai, Ayesha
  organization: Loma Linda University Medical Center, USA
– sequence: 3
  givenname: Curtis
  surname: Taylor
  fullname: Taylor, Curtis
  organization: Department of Neuroscience, University of California, San Diego, USA
– sequence: 4
  givenname: Jessica B.S.
  surname: Langbaum
  fullname: Langbaum, Jessica B.S.
  organization: Banner Alzheimer's Institute, Phoenix, AZ, USA
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  givenname: Kewei
  surname: Chen
  fullname: Chen, Kewei
  organization: Banner Alzheimer's Institute, Phoenix, AZ, USA
– sequence: 6
  givenname: Richard B.
  surname: Buxton
  fullname: Buxton, Richard B.
  organization: Department of Radiology, University of California, San Diego, USA
BackLink https://www.ncbi.nlm.nih.gov/pubmed/19539034$$D View this record in MEDLINE/PubMed
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ContentType Journal Article
Copyright 2009 Elsevier Inc.
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2009 Elsevier Inc. All rights reserved. 2009
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Snippet To assess the ability of resting-state functional magnetic resonance imaging to distinguish known risk factors for AD, we evaluated 17 cognitively normal...
To assess the ability of resting state functional magnetic resonance imaging to distinguish known risk factors for AD, we evaluated 17 cognitively normal...
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SubjectTerms Aged
Algorithms
Alzheimer Disease - diagnosis
Alzheimer's disease
APOE4
Brain
Default network
Diagnosis, Differential
Evoked Potentials
Female
fMRI
Humans
Image Enhancement - methods
Image Interpretation, Computer-Assisted - methods
Magnetic Resonance Imaging - methods
Male
Middle Aged
Nerve Net
NMR
Nuclear magnetic resonance
Older people
Reproducibility of Results
Rest
Risk Assessment
Risk Factors
Sensitivity and Specificity
Task Performance and Analysis
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Title Resting-state BOLD networks versus task-associated functional MRI for distinguishing Alzheimer's disease risk groups
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https://dx.doi.org/10.1016/j.neuroimage.2009.06.021
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Volume 47
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