Uncinate fasciculus

Uncinate fasciculus
Lateral surface of left cerebral hemisphere. Some of major association tracts are depicted. Uncinate fasciculus is at lower left, in red.
Human brain that operculum has been removed. A part of uncinate fasciculus is visible (shown in yellow)
Details
Identifiers
Latin	Fasciculus uncinatus
NeuroNames	hier-1444
NeuroLex ID	Uncinate fasciculus
TA	A14.1.09.560
FMA	77636
Anatomical terms of neuroanatomy []

The uncinate fasciculus is a white matter tract in the human brain that connects parts of the limbic system such as the hippocampus and amygdala in the temporal lobe with frontal ones such as the orbitofrontal cortex. Its function is unknown though it is affected in several psychiatric conditions. It is the last white matter tract to mature in the human brain.

The uncinate fasciculus is a hook-shaped bundle that links the anterior portions of the temporal lobe with the inferior frontal gyrus and the lower surfaces of the frontal lobe. It does this by arising lateral to the amygdala and hippocampus in the temporal lobe curving in an upward pathway behind the external capsule inward of the insular cortex and continuing up into the posterior part of the orbital gyrus.

The average length of the uncinate fasciculus is 45 mm with a range 40–49 mm. Its volume in adults is 1425.9±138.6 mm³, being slightly larger in men, at 1504.3±150.4, than women 1378.5±107.4.

It has three parts: a ventral or frontal extension, an intermediary segment called the isthmus or insular segment and a temporal or dorsal segment.

The function of the uncinate fasciculus is not known, though it is traditionally considered to be part of the limbic system.

Diffusion tensor imaging, a reconstruction model available from a diffusion MRI scan, shows a greater fractional anisotropy on the left side than on the right. The difference in this measure of anisotropy has been linked to the left hemispheric specialization for language. However, the use of electrical brain stimulation upon it fails to disrupt language, suggesting it might not be involved in language, though it is possible that this disruption failed to happen because it was functionally compensated by alternative pathways.