Functional connectivity in the motor cortex of resting human brain using echo‐planar mri

Bharat B. Biswal(Medical College of Wisconsin), F. Zerrin Yetkin(Medical College of Wisconsin), Victor M. Haughton(Medical College of Wisconsin), James S. Hyde(Medical College of Wisconsin)
Magnetic Resonance in Medicine
October 1, 1995
10.1002/mrm.1910340409
Cited by 10,060

Abstract

Abstract An MRI time course of 512 echo‐planar images (EPI) in resting human brain obtained every 250 ms reveals fluctuations in signal intensity in each pixel that have a physiologic origin. Regions of the sensorimotor cortex that were activated secondary to hand movement were identified using functional MRI methodology (FMRI). Time courses of low frequency (<0.1 Hz) fluctuations in resting brain were observed to have a high degree of temporal correlation ( P < 10 −3 ) within these regions and also with time courses in several other regions that can be associated with motor function. It is concluded that correlation of low frequency fluctuations, which may arise from fluctuations in blood oxygenation or flow, is a manifestation of functional connectivity of the brain.

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