Abstract
There has been an increasing use of functional magnetic resonance imaging (fMRI) by the neuroscience community to examine differences in functional connectivity between normal control groups and populations of interest. Understanding the reliability of these functional connections is essential to the study of neurological development and degenerate neuropathological conditions. To date, most research assessing the reliability with which resting-state functional connectivity characterizes the brain's functional networks has been on scans between 3 and 11. min in length. In our present study, we examine the test-retest reliability and similarity of resting-state functional connectivity for scans ranging in length from 3 to 27. min as well as for time series acquired during the same length of time but excluding half the time points via sampling every second image. Our results show that reliability and similarity can be greatly improved by increasing the scan lengths from 5. min up to 13. min, and that both the increase in the number of volumes as well as the increase in the length of time over which these volumes was acquired drove this increase in reliability. This improvement in reliability due to scan length is much greater for scans acquired during the same session. Gains in intersession reliability began to diminish after 9-12. min, while improvements in intrasession reliability plateaued around 12-16. min. Consequently, new techniques that improve reliability across sessions will be important for the interpretation of longitudinal fMRI studies.
Original language | English (US) |
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Pages (from-to) | 550-558 |
Number of pages | 9 |
Journal | NeuroImage |
Volume | 83 |
DOIs | |
State | Published - Dec 2013 |
Bibliographical note
Funding Information:We thank Alexander J. Shackman for the valuable discussions about the analyses. We also thank Bharat B. Biswal for his assistance in the study design. This research was supported by NIH grant RC1MH090912 and the Health Emotions Research Institute .
Keywords
- FMRI
- Functional connectivity
- Reliability
- Resting-state
- Scan duration
- Scan length