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MRI parcellation of ex vivo medial temporal lobe
Recent advancements in radio frequency coils, field strength and sophisticated pulse sequences have propelled modern brain mapping and have made validation to biological standards – histology and pathology – possible. The medial temporal lobe has long been established as a pivotal brain region for c...
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| Published in: | NeuroImage (Orlando, Fla.) Fla.), 2014-06, Vol.93, p.252-259 |
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| container_title | NeuroImage (Orlando, Fla.) |
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| creator | Augustinack, Jean C. Magnain, Caroline Reuter, Martin van der Kouwe, André J.W. Boas, David Fischl, Bruce |
| description | Recent advancements in radio frequency coils, field strength and sophisticated pulse sequences have propelled modern brain mapping and have made validation to biological standards – histology and pathology – possible. The medial temporal lobe has long been established as a pivotal brain region for connectivity, function and unique structure in the human brain, and reveals disconnection in mild Alzheimer's disease. Specific brain mapping of mesocortical areas affected with neurofibrillary tangle pathology early in disease progression provides not only an accurate description for location of these areas but also supplies spherical coordinates that allow comparison between other ex vivo cases and larger in vivo datasets. We have identified several cytoarchitectonic features in the medial temporal lobe with high resolution ex vivo MRI, including gray matter structures such as the entorhinal layer II ‘islands’, perirhinal layer II–III columns, presubicular ‘clouds’, granule cell layer of the dentate gyrus as well as lamina of the hippocampus. Localization of Brodmann areas 28 and 35 (entorhinal and perirhinal, respectively) demonstrates MRI based area boundaries validated with multiple methods and histological stains. Based on our findings, both myelin and Nissl staining relate to contrast in ex vivo MRI. Precise brain mapping serves to create modern atlases for cortical areas, allowing accurate localization with important applications to detecting early disease processes.
•The ex vivo imaging model combines neuroimaging and histological staining.•Localization of entorhinal and perirhinal cortices with ex vivo MRI.•Myelin and Nissl staining relate to contrast in ex vivo MRI.•Probabilistic brain mapping serves to create modern atlases for cortical areas.•Accurate localization allows application to neurodegenerative disease processes. |
| doi_str_mv | 10.1016/j.neuroimage.2013.05.053 |
| format | article |
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Localization of Brodmann areas 28 and 35 (entorhinal and perirhinal, respectively) demonstrates MRI based area boundaries validated with multiple methods and histological stains. Based on our findings, both myelin and Nissl staining relate to contrast in ex vivo MRI. Precise brain mapping serves to create modern atlases for cortical areas, allowing accurate localization with important applications to detecting early disease processes.
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| ispartof | NeuroImage (Orlando, Fla.), 2014-06, Vol.93, p.252-259 |
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| language | eng |
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| source | ScienceDirect Journals |
| subjects | Brain Mapping Brodmann's area 28 Brodmann's area 35 Entorhinal Humans Localization Magnetic Resonance Imaging Mapping Perirhinal Temporal Lobe - anatomy & histology |
| title | MRI parcellation of ex vivo medial temporal lobe |
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