Characterizing the white matter hyperintensity penumbra with cerebral blood flow measures

Autor: William D. Rooney, J. A. Kaye, Nutta-on Promjunyakul, David Lahna, Lisa C. Silbert, Hiroko H. Dodge, Deniz Erten-Lyons
Jazyk: angličtina
Rok vydání: 2015
Předmět:
Male
Aging
WMH
white matter hyperintensity
Vascular dementia
lcsh:RC346-429
030218 nuclear medicine & medical imaging
M0
the initial ASL datasets
0302 clinical medicine
PASL
pulsed arterial spin labeling
DWMH
deep white matter hyperintensity
Aged
80 and over
NAWM L1
normal appearing white matter layer 1
medicine.diagnostic_test
Penumbra
White matter hyperintensity (WMH)
Magnetic Resonance Imaging
White Matter
3. Good health
medicine.anatomical_structure
Neurology
Cerebral blood flow
Cerebrovascular Circulation
NAWM
normal appearing white matter
Cardiology
lcsh:R858-859.7
Female
PCASL
pseudo-continuous arterial spin labeling
CBF
cerebral blood flow
Psychology
Arterial spin labeling (ASL)
medicine.medical_specialty
NAWM L15
normal appearing white matter layer 15
Cognitive Neuroscience
PVWMH
periventricular white matter hyperintensity
CASL
continuous arterial spin labeling
lcsh:Computer applications to medicine. Medical informatics
behavioral disciplines and activities
Article
White matter
03 medical and health sciences
Cognitive aging
Internal medicine
mental disorders
Cerebral blood flow (CBF) penumbra
medicine
Humans
Radiology
Nuclear Medicine and imaging
CBF - Cerebral blood flow
lcsh:Neurology. Diseases of the nervous system
Aged
Magnetic resonance imaging
medicine.disease
Hyperintensity
White matter hyperintensity
Spin Labels
Neurology (clinical)
Neuroscience
030217 neurology & neurosurgery
Zdroj: NeuroImage: Clinical, Vol 8, Iss C, Pp 224-229 (2015)
NeuroImage : Clinical
ISSN: 2213-1582
Popis: Objective White matter hyperintensities (WMHs) are common with age, grow over time, and are associated with cognitive and motor impairments. Mechanisms underlying WMH growth are unclear. We aimed to determine the presence and extent of decreased normal appearing white matter (NAWM) cerebral blood flow (CBF) surrounding WMHs to identify ‘WM at risk’, or the WMH CBF penumbra. We aimed to further validate cross-sectional finding by determining whether the baseline WMH penumbra CBF predicts the development of new WMHs at follow-up. Methods Sixty-one cognitively intact elderly subjects received 3 T MPRAGE, FLAIR, and pulsed arterial spin labeling (PASL). Twenty-four subjects returned for follow-up MRI. The inter-scan interval was 18 months. A NAWM layer mask, comprised of fifteen layers, 1 mm thick each surrounding WMHs, was generated for periventricular (PVWMH) and deep (DWMH) WMHs. Mean CBF for each layer was computed. New WMH and persistent NAWM voxels for each penumbra layer were defined from follow-up MRI. Results CBF in the area surrounding WMHs was significantly lower than the total brain NAWM, extending approximately 12 mm from both the established PVWMH and DWMH. Voxels with new WMH at follow-up had significantly lower baseline CBF than voxels that maintained NAWM, suggesting that baseline CBF can predict the development of new WMHs over time. Conclusions A CBF penumbra exists surrounding WMHs, which is associated with future WMH expansion. ASL MRI can be used to monitor interventions to increase white matter blood flow for the prevention of further WM damage and its cognitive and motor consequences.
Highlights • We examined cerebral blood flow (CBF) surrounding white matter hyperintensity (WMH) lesions. • We examined whether low baseline CBF is associated with WMH expansion over time. • WMH CBF penumbra exists, extending ~12 mm from both periventricular and deep WMH lesions. • Baseline CBF can predict the development of new WMHs over time. • ASL MRI can be used to monitor interventions to increase white matter blood flow.
Databáze: OpenAIRE
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