[Volumetric MRI for evaluation of regional pattern and progressin of neocortical degeneration in Alzheimer's disease].

Abstract	PURPOSE: Volumetric analysis of the corpus callosum and hippocampus using MRI in Alzheimer's disease (AD) to evaluate the regional pattern and progression of neocortical neurodegeneration. METHODS: In subsequent studies we investigated patients with AD and healthy controls. Volumetry was based on MRI-data from a sagittal 3D T1w-gradient echo sequence. The corpus callosum (CC) was measured in a midsagittal slice, and subdivided into 5 subregions. Volumetry of the hippocampus/amygdala-formation (HAF) was performed by segmentation in coronary reoriented slices. RESULTS: In AD patients we found a significant atrophy in the rostrum und splenium of CC. The atrophy was correlated with the severity of dementia, but no correlation was found with the load of white matter lesions. In comparison with (18)FDG-PET, we found a significant correlation of regional CC-atrophy with the regional decline of cortical glucose metabolism. A ROC-analysis demonstrated no significant differences in the diagnostic accuracy of HAF volumetry and regional CC volumetry of the splenium (region C5) even in mild stages of dementia. CONCLUSION: Regional atrophy of CC can be used as a marker of neocortical degeneration even in early stages of dementia in AD.
Authors	G Leinsinger, S Teipel, A Wismüller, C Born, T Meindl, W Flatz, S Schönberg, J Pruessner, H Hampel, M Reiser
Journal	Der Radiologe (Radiologe) Vol. 43 Issue 7 Pg. 537-42 (Jul 2003) ISSN: 0033-832X [Print] Germany
Vernacular Title	MR-Volumetrie zur Darstellung von Verteilung und zeitlicher Abfolge neokortikaler Degeneration bei Morbus Alzheimer.
PMID	12955216 (Publication Type: Comparative Study, Journal Article, Review)
Topics	Alzheimer Disease (diagnosis, diagnostic imaging, pathology) Amygdala (pathology) Atrophy Clinical Trials as Topic Corpus Callosum (pathology) Diagnosis, Differential Disease Progression Hippocampus (pathology) Humans Magnetic Resonance Imaging (methods) Neocortex (pathology) ROC Curve Sensitivity and Specificity Time Factors Tomography, Emission-Computed

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