High-field magnetic resonance imaging of brain iron in Alzheimer disease

Increased iron deposition in the brain may occur in several neurodegenerative diseases, including Alzheimer disease (AD). Iron deposits shorten T2 relaxation times on T2-weighted magnetic resonance (MR) images. Iron-dependent contrast increases with magnetic field strength. We hypothesized that T2 m...

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Veröffentlicht in:	Topics in magnetic resonance imaging 2006-02, Vol.17 (1), p.41-50
Hauptverfasser:	Schenck, John F, Zimmerman, Earl A, Li, Zhu, Adak, Sudeshna, Saha, Angshuman, Tandon, Reeti, Fish, Kenneth M, Belden, Clifford, Gillen, Robert W, Barba, Anne, Henderson, David L, Neil, William, O'Keefe, Timothy
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Sprache:	eng
Schlagworte:	Aged Alzheimer Disease - diagnosis Alzheimer Disease - metabolism Biomarkers - metabolism Brain - metabolism Brain - pathology Female Humans Image Interpretation, Computer-Assisted - methods Iron - metabolism Iron Metabolism Disorders - diagnosis Iron Metabolism Disorders - metabolism Magnetic Resonance Imaging - methods Male
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creator	Schenck, John F Zimmerman, Earl A Li, Zhu Adak, Sudeshna Saha, Angshuman Tandon, Reeti Fish, Kenneth M Belden, Clifford Gillen, Robert W Barba, Anne Henderson, David L Neil, William O'Keefe, Timothy
description	Increased iron deposition in the brain may occur in several neurodegenerative diseases, including Alzheimer disease (AD). Iron deposits shorten T2 relaxation times on T2-weighted magnetic resonance (MR) images. Iron-dependent contrast increases with magnetic field strength. We hypothesized that T2 mapping using 3 T MR imaging (MRI) can disclose differences between normal controls and AD subjects. High-resolution brain imaging protocols were developed and applied to 24 AD patients and 20 age-matched controls using 3 T MRI. Eight anatomical regions of interest were manually segmented, and T2 histograms were computed. A visual analysis technique, the heat map, was modified and applied to the large image data sets generated by these protocols. A large number (163) of features from these histograms were examined, and 38 of these were significantly different (P < 0.05) between the groups. In the hippocampus, evidence was found for AD-related increases in iron deposition (shortened T2) and in the concentration of free tissue water (lengthened T2). Imaging of a section of postmortem brain before and after chemically extracting the iron established the presence of MRI-detectable iron in the hippocampus, cortex, and white matter in addition to brain regions traditionally viewed as containing high iron concentrations.
doi_str_mv	10.1097/01.rmr.0000245455.59912.40
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Iron deposits shorten T2 relaxation times on T2-weighted magnetic resonance (MR) images. Iron-dependent contrast increases with magnetic field strength. We hypothesized that T2 mapping using 3 T MR imaging (MRI) can disclose differences between normal controls and AD subjects. High-resolution brain imaging protocols were developed and applied to 24 AD patients and 20 age-matched controls using 3 T MRI. Eight anatomical regions of interest were manually segmented, and T2 histograms were computed. A visual analysis technique, the heat map, was modified and applied to the large image data sets generated by these protocols. A large number (163) of features from these histograms were examined, and 38 of these were significantly different (P < 0.05) between the groups. In the hippocampus, evidence was found for AD-related increases in iron deposition (shortened T2) and in the concentration of free tissue water (lengthened T2). 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subjects	Aged Alzheimer Disease - diagnosis Alzheimer Disease - metabolism Biomarkers - metabolism Brain - metabolism Brain - pathology Female Humans Image Interpretation, Computer-Assisted - methods Iron - metabolism Iron Metabolism Disorders - diagnosis Iron Metabolism Disorders - metabolism Magnetic Resonance Imaging - methods Male
title	High-field magnetic resonance imaging of brain iron in Alzheimer disease
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