Brain regions exhibit dynamic yet highly coordinated activity patterns that form large-scale functional networks measurable through resting-state correlations. While their association with fluctuating activity may intuitively suggest functional networks to be temporally transient and dependent on state, a growing body of literature suggests that they are person-specific and stable across days. If truly person-specific, then functional networks should preserve unique characteristics over extended periods. To test this hypothesis, we collected longitudinal precision fMRI data ([≥]60 minutes per participant per time point) from 10 healthy young adults across 1-3 year intervals, as well as three adults over 8-13 years. We further replicated findings in the MyConnectome dataset and its 10-year follow-up. Functional network organization--when sufficient per-participant data were collected-- remained largely stable within individuals over prolonged periods of up to 13 years, suggesting that individualized brain organization constitutes persistent features of personal identity that may be supported by homeostatic mechanisms.
Lee, H. J., Dworetsky, A., Porter, A., Fei, S., Nielsen, A. N., Seitzman, B. A., Adeyemo, B., Bissett, P. G., Poldrack, R. A., Cohen, J. R., D'Esposito, M., Neta, M., Dosenbach, N. U. F., Petersen, S. E., Gordon, E. M., Greene, D. J., Gratton, C.
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