Sang Seok Yeo scite author profile

Introduction: Action of the ascending reticular activating system (ARAS) on the cerebral cortex is responsible for achievement of consciousness. In this study, we attempted to reconstruct the lower single component of the ARAS from the reticular formation (RF) to the thalamus in the normal human brain using diffusion tensor imaging (DTI).Methods: Twenty six normal healthy subjects were recruited for this study. A 1.5-T scanner was used for scanning of diffusion tensor images, and the lower single component of the ARAS was reconstructed using FMRIB software. We utilized two ROIs for reconstruction of the lower single component of the ARAS: the seed ROI – the RF of the pons at the level of the trigeminal nerve entry zone, the target ROI – the intralaminar nuclei of the thalamus at the level of the commissural plane.Results: The reconstructed ARAS originated from the pontine RF, ascended through the mesencephalic tegmentum just posterior to the red nucleus, and then terminated on the intralaminar nuclei of the thalamus. No significant differences in fractional anisotropy, mean diffusivity, and tract number were observed between hemispheres (p > 0.05).Conclusion: We reconstructed the lower single component of the ARAS from the RF to the thalamus in the human brain using DTI. The results of this study might be of value for the diagnosis and prognosis of patients with impaired consciousness.

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Corticoreticular pathway in the human brain: Diffusion tensor tractography study

Yeo

Lee

Kwon³

et al. 2012

Neuroscience Letters

102

117

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The different maturation of the corticospinal tract and corticoreticular pathway in normal brain development: diffusion tensor imaging study

Yeo

Jang

Son

2014

Front. Hum. Neurosci.

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Background and Purpose: The corticospinal tract (CST) and corticoreticular pathway (CRP) are known to be important neural tracts for motor development. However, little is known about the difference in maturation of the CST and CRP. In this study, using diffusion tensor imaging (DTI), we investigated maturation of the CST and CRP in typically developed children and normal healthy adults.Methods: We recruited 75 normal healthy subjects for this study. DTI was performed using 1.5-T, and the CST and CRP were reconstructed using DTI-Studio software. Values of fractional anisotropy (FA) and fiber volume (FV) of the CST and CRP were measured.Results: In the current study, the threshold points for CST and CRP maturation were different in normal brain development. Change in FA value of the CST showed a steep increase until 7 years of age and then a gradual increase until adulthood, however, the CRP showed a steep increase only until 2 years of age and then a very gradual increase or plateau until adulthood. In terms of FV, the CST showed a steep increase until 12 years and then a gradual increase until adulthood, in contrast, the CRP showed gradual increase of FV across whole age range (0–25 years).Conclusion: The difference in maturation process between CST and CRP appears to be related to different periods of fine and gross motor development. This radiologic information can provide a scientific basis for understanding development in motor function.

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The neural connectivity of the intralaminar thalamic nuclei in the human brain: A diffusion tensor tractography study

Jang

Lim

Yeo

2014

Neuroscience Letters

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Sang Seok Yeo

Functional Role of the Corticoreticular Pathway in Chronic Stroke Patients

The Ascending Reticular Activating System from Pontine Reticular Formation to the Thalamus in the Human Brain

Corticoreticular pathway in the human brain: Diffusion tensor tractography study

The different maturation of the corticospinal tract and corticoreticular pathway in normal brain development: diffusion tensor imaging study

The neural connectivity of the intralaminar thalamic nuclei in the human brain: A diffusion tensor tractography study

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