White matter pathway and individual variability in human stereoacuity

White matter pathway and individual variability in human stereoacuity


Researchers have identified a human white matter pathway associated with individual variability in human stereoacuity. By combining neuroimaging and psychophysical measurements, they found that the neural tissue density of the white matter pathway, the vertical occipital fasciculus (VOF), correlated with the individual variability in stereoacuity. The VOF connects the dorsal and ventral visual areas involved in stereopsis. This finding is important to understand the neural basis of dysfunction in stereopsis.

Seeing in the three-dimensional world, stereopsis, is an important visual function for our daily life. A series of previous studies have revealed that our stereopsis is established by neural processing of binocular disparity, which is the retinal image difference between the two eyes. A number of studies have investigated which brain regions are involved in such information processing. Understanding of the neural mechanisms underlying stereopsis is crucial not only for visual neuroscience but also for application in virtual reality systems.

There is one unanswered key question regarding stereopsis: why the ability of depth discrimination (stereoacuity) varies greatly among people. In fact, previous studies have reported a broad distribution of human stereoacuity. Although it is likely that such a difference is related to a difference in the neural systems, the neurobiological origin of such individual differences is unknown.

In this study, researchers examined the neuronal basis of individual differences in stereoacuity by combining cutting-edge neuroimaging techniques and psychophysics. They specifically focused on white matter pathways connecting distant brain areas because previous studies have demonstrated multiple brain areas in the dorsal and ventral visual areas are involved in stereopsis. Authors first identified trajectories of major white matter pathways related to visual processing by analyzing a diffusion MRI dataset. They then quantified neural tissues in the white matter using a quantitative MRI method. Furthermore, they estimated the stereoacuity of each individual human participant in a psychophysical experiment.

As a result, authors found that the group with good stereoacuity showed significantly higher neural tissue density along a specific white matter pathway, the vertical occipital fasciculus (VOF) in the right hemisphere, compared to the group with poor stereoacuity. A functional MRI experiment revealed that the dorsal and ventral visual areas connected by the VOF are involved in stereopsis. Finally, researchers also confirmed that the neural tissue properties of the VOF did not correlate with performance in contrast detection, which does not require binocular integration of visual information. These results suggest that the communication between the dorsal and ventral visual brain areas via the VOF plays an important role in human stereopsis.

A previous study found that approximately 30% of healthy individuals have relatively lower performance in stereoacuity. Further research on stereoacuity and white matter will contribute to a method for improving our performance in stereopsis.


http://www.nict.go.jp/en/press/2018/11/19-1.html

http://www.pnas.org/content/early/2018/11/13/1804741115

http://sciencemission.com/site/index.php?page=news&type=view&id=publications%2Fmicrostructural&filter=22&keep_no_swfupload=1

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