Alex L. MacKay scite author profile

We exploit the intrinsic difference in magnetic resonance spin-spin relaxation time, T2, between water associated with myelin sheaths and water in other central nervous system tissue in order to measure myelin water content within any region of an image or to generate indirectly a myelin map of the brain. In normal volunteers, myelin water maps give the expected myelin distribution. In multiple sclerosis patients, lesions exhibit different myelin water contents providing insight into the demyelination process unavailable from conventional magnetic resonance images. In vivo myelin measurement has important applications in the clinical management of multiple sclerosis and other white matter diseases.

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In vivo measurement of T₂ distributions and water contents in normal human brain

Whittall

MacKay

Graeb

et al. 1997

Magnetic Resonance in Med

738

777

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Using a 32-echo imaging pulse sequence, T2 relaxation decay curves were acquired from five white- and six gray-matter brain structures outlined in 12 normal volunteers. The water contents of white and gray matter were 0.71 (0.01) and 0.83 (0.03) g/ml, respectively. All white-matter structures had significantly higher myelin water percentages (signal percentage with T2 between 10 and 50 ms) than all gray-matter structures. The range in geometric mean T2 of the main peak for both white and gray matter was from 70 to 86 ms. T2 distributions from the posterior internal capsules and splenium of the corpus callosum were significantly wider (width is related to water environment inhomogeneity) than those from any other white- or gray-matter structures. Thus, quantitative measurement and analysis of T2 relaxation reveals differences in brain tissue water environments not discernible on conventional MR images. These differences may make short T2 components reliable markers for normal myelin.

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Myelin water imaging in multiple sclerosis: quantitative correlations with histopathology

et al. 2006

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Various magnetic resonance (MR) techniques are used to study the pathological evolution of demyelinating diseases, such as multiple sclerosis (MS). However, few studies have validated MR derived measurements with histopathology. Here, we determine the correlation of myelin water imaging, an MR measure of myelin content, with quantitative histopathologic measures of myelin density. The multi-component T2 distribution of water was determined from 25 formalin-fixed MS brain samples using a multi-echo T2 relaxation MR experiment. The myelin water fraction (MWF), defined as T2 signal below 30 milliseconds divided by the total signal, was determined for various regions of interest and compared to Luxol fast blue (myelin stain) mean optical density (OD) for each sample. MWF had a strong correlation with myelin stain [mean (range) R2 = 0.67 (0.45-0.92)], validating MWF as a measure of myelin density. This quantitative technique has many practical applications for the in vivo monitoring of demyelination and remyelination in a variety of disorders of myelin.

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Water content and myelin water fraction in multiple sclerosis

Laule

Vavasour

Moore

et al. 2004

Journal of Neurology

327

337

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Alex L. MacKay

In vivo visualization of myelin water in brain by magnetic resonance

In vivo measurement of T₂ distributions and water contents in normal human brain

Myelin water imaging in multiple sclerosis: quantitative correlations with histopathology

Water content and myelin water fraction in multiple sclerosis

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Alex L. MacKay

In vivo visualization of myelin water in brain by magnetic resonance

In vivo measurement of T2 distributions and water contents in normal human brain

Myelin water imaging in multiple sclerosis: quantitative correlations with histopathology

Water content and myelin water fraction in multiple sclerosis

Contact Info

Product

Resources

About

In vivo measurement of T₂ distributions and water contents in normal human brain