Journal article
Super-resolution track-density imaging of thalamic substructures: Comparison with high-resolution anatomical magnetic resonance imaging at 7.0T
F Calamante, SH Oh, JD Tournier, SY Park, YD Son, JY Chung, JG Chi, GD Jackson, CW Park, YB Kim, A Connelly, ZH Cho
Human Brain Mapping | Published : 2013
DOI: 10.1002/hbm.22083
Abstract
The thalamus is one of the most important brain structures, with strong connections between subcortical and cortical areas of the brain. Most of the incoming information to the cortex passes through the thalamus. Accurate identification of substructures of the thalamus is therefore of great importance for the understanding of human brain connectivity. Direct visualization of thalamic substructures, however, is not easily achieved with currently available magnetic resonance imaging (MRI), including ultra-high field MRI such as 7.0T, mainly due to the limited contrast between the relevant structures. Recently, improvements in ultra-high field 7.0T MRI have opened the possibility of observing t..
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Funding Acknowledgements
FC, J-DT, GDJ, and AC are grateful to the National Health and Medical Research Council (NHMRC) of Australia, Austin Health, and the Victorian Government's Operational Infrastructure Support Program for their support. The authors thank Mr. Suk-Min Hong, Mr. Joshua H. Park, Mr. Hong-Bae Jeong, and Mr. Myung-Kyun Woo for making coil.