In vivo myelin imaging and tissue microstructure in white matter hyperintensities and perilesional white matter. Issue 3 (6th June 2022)
- Record Type:
- Journal Article
- Title:
- In vivo myelin imaging and tissue microstructure in white matter hyperintensities and perilesional white matter. Issue 3 (6th June 2022)
- Main Title:
- In vivo myelin imaging and tissue microstructure in white matter hyperintensities and perilesional white matter
- Authors:
- Ferris, Jennifer K.
Greeley, Brian
Vavasour, Irene M.
Kraeutner, Sarah N.
Rinat, Shie
Ramirez, Joel
Black, Sandra E.
Boyd, Lara A. - Abstract:
- Abstract: White matter hyperintensities negatively impact white matter structure and relate to cognitive decline in aging. Diffusion tensor imaging detects changes to white matter microstructure, both within the white matter hyperintensity and extending into surrounding (perilesional) normal-appearing white matter. However, diffusion tensor imaging markers are not specific to tissue components, complicating the interpretation of previous microstructural findings. Myelin water imaging is a novel imaging technique that provides specific markers of myelin content (myelin water fraction) and interstitial fluid (geometric mean T2 ). Here we combined diffusion tensor imaging and myelin water imaging to examine tissue characteristics in white matter hyperintensities and perilesional white matter in 80 individuals (47 older adults and 33 individuals with chronic stroke). To measure perilesional normal-appearing white matter, white matter hyperintensity masks were dilated in 2 mm segments up to 10 mm in distance from the white matter hyperintensity. Fractional anisotropy, mean diffusivity, myelin water fraction, and geometric mean T2 were extracted from white matter hyperintensities and perilesional white matter. We observed a spatial gradient of higher mean diffusivity and geometric mean T2, and lower fractional anisotropy, in the white matter hyperintensity and perilesional white matter. In the chronic stroke group, myelin water fraction was reduced in the white matterAbstract: White matter hyperintensities negatively impact white matter structure and relate to cognitive decline in aging. Diffusion tensor imaging detects changes to white matter microstructure, both within the white matter hyperintensity and extending into surrounding (perilesional) normal-appearing white matter. However, diffusion tensor imaging markers are not specific to tissue components, complicating the interpretation of previous microstructural findings. Myelin water imaging is a novel imaging technique that provides specific markers of myelin content (myelin water fraction) and interstitial fluid (geometric mean T2 ). Here we combined diffusion tensor imaging and myelin water imaging to examine tissue characteristics in white matter hyperintensities and perilesional white matter in 80 individuals (47 older adults and 33 individuals with chronic stroke). To measure perilesional normal-appearing white matter, white matter hyperintensity masks were dilated in 2 mm segments up to 10 mm in distance from the white matter hyperintensity. Fractional anisotropy, mean diffusivity, myelin water fraction, and geometric mean T2 were extracted from white matter hyperintensities and perilesional white matter. We observed a spatial gradient of higher mean diffusivity and geometric mean T2, and lower fractional anisotropy, in the white matter hyperintensity and perilesional white matter. In the chronic stroke group, myelin water fraction was reduced in the white matter hyperintensity but did not show a spatial gradient in perilesional white matter. Across the entire sample, white matter metrics within the white matter hyperintensity related to whole-brain white matter hyperintensity volume; with increasing white matter hyperintensity volume there was increased mean diffusivity and geometric mean T2, and decreased myelin water fraction in the white matter hyperintensity. Normal-appearing white matter adjacent to white matter hyperintensities exhibits characteristics of a transitional stage between healthy white matter and white matter hyperintensities. This effect was observed in markers sensitive to interstitial fluid, but not in myelin water fraction, the specific marker of myelin concentration. Within the white matter hyperintensity, interstitial fluid was higher and myelin concentration was lower in individuals with more severe cerebrovascular disease. Our data suggests white matter hyperintensities have penumbra-like effects in perilesional white matter that specifically reflect increased interstitial fluid, with no changes to myelin concentration. In contrast, within the white matter hyperintensity there are varying levels of demyelination, which vary based on the severity of cerebrovascular disease. Diffusion tensor imaging and myelin imaging may be useful clinical markers to predict white matter hyperintensity formation, and to stage neuronal damage within white matter hyperintensities. Abstract : White matter hyperintensities show penumbra-like effects in adjacent normal-appearing white matter but the physiological basis for these is unclear. Combining myelin water imaging and diffusion tensor imaging, Ferris et al. found fluid accumulation in normal-appearing white matter and myelin loss confined to white matter hyperintensities only in later disease stages. Graphical Abstract: Graphical abstract … (more)
- Is Part Of:
- Brain communications. Volume 4:Issue 3(2022)
- Journal:
- Brain communications
- Issue:
- Volume 4:Issue 3(2022)
- Issue Display:
- Volume 4, Issue 3 (2022)
- Year:
- 2022
- Volume:
- 4
- Issue:
- 3
- Issue Sort Value:
- 2022-0004-0003-0000
- Page Start:
- Page End:
- Publication Date:
- 2022-06-06
- Subjects:
- myelin water imaging -- penumbra -- white matter hyperintensity -- cerebral small vessel disease -- diffusion tensor imaging
616 - Journal URLs:
- https://academic.oup.com/braincomms ↗
http://www.oxfordjournals.org/ ↗ - DOI:
- 10.1093/braincomms/fcac142 ↗
- Languages:
- English
- ISSNs:
- 2632-1297
- Deposit Type:
- Legaldeposit
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library DSC - BLDSS-3PM
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- 21809.xml