Kevin Sam scite author profile

We define cerebral vascular reactivity (CVR) as the ratio of the change in blood oxygen level-dependent (BOLD) magnetic resonance imaging (MRI) signal (S) to an increase in blood partial pressure of CO2 (PCO2): % Δ S/Δ PCO2 mm Hg. Our aim was to further characterize CVR into dynamic and static components and then study 46 healthy subjects collated into a reference atlas and 20 patients with unilateral carotid artery stenosis. We applied an abrupt boxcar change in PCO2 and monitored S. We convolved the PCO2 with a set of first-order exponential functions whose time constant τ was increased in 2-second intervals between 2 and 100 seconds. The τ corresponding to the best fit between S and the convolved PCO2 was used to score the speed of response. Additionally, the slope of the regression between S and the convolved PCO2 represents the steady-state CVR (ssCVR). We found that both prolongations of τ and reductions in ssCVR (compared with the reference atlas) were associated with the reductions in CVR on the side of the lesion. τ and ssCVR are respectively the dynamic and static components of measured CVR.

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CO₂Blood Oxygen Level–dependent MR Mapping of Cerebrovascular Reserve in a Clinical Population: Safety, Tolerability, and Technical Feasibility

Spano

Mandell²,

Poublanc³

et al. 2013

Radiology

129

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Assessing Cerebrovascular Reactivity Abnormality by Comparison to a Reference Atlas

Sobczyk

Battisti‐Charbonney

Poublanc

et al. 2014

J Cereb Blood Flow Metab

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Attribution of vascular pathophysiology to reductions in cerebrovascular reactivity (CVR) is confounded by subjective assessment and the normal variation between anatomic regions. This study aimed to develop an objective scoring assessment of abnormality. CVR was measured as the ratio of the blood-oxygen-level-dependent magnetic resonance signal response divided by an increase in CO 2 , standardized to eliminate variability. A reference normal atlas was generated by coregistering the CVR maps from 46 healthy subjects into a standard space and calculating the mean and standard deviation (s.d.) of CVR for each voxel. Example CVR studies from 10 patients with cerebral vasculopathy were assessed for abnormality, by normalizing each patient's CVR to the same standard space as the atlas, and assigning a z-score to each voxel relative to the mean and s.d. of the corresponding atlas voxel. Z-scores were color coded and superimposed on their anatomic scans to form CVR z-maps. We found the CVR z-maps provided an objective evaluation of abnormality, enhancing our appreciation of the extent and distribution of pathophysiology compared with CVR maps alone. We concluded that CVR z-maps provide an objective, improved form of evaluation for comparisons of voxel-specific CVR between subjects, and across tests sites.

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Development of White Matter Hyperintensity Is Preceded by Reduced Cerebrovascular Reactivity

Sam

Crawley

Conklin

et al. 2016

Annals of Neurology

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Kevin Sam

Measuring Cerebrovascular Reactivity: The Dynamic Response to a Step Hypercapnic Stimulus

CO₂Blood Oxygen Level–dependent MR Mapping of Cerebrovascular Reserve in a Clinical Population: Safety, Tolerability, and Technical Feasibility

Assessing Cerebrovascular Reactivity Abnormality by Comparison to a Reference Atlas

Development of White Matter Hyperintensity Is Preceded by Reduced Cerebrovascular Reactivity

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Kevin Sam

Measuring Cerebrovascular Reactivity: The Dynamic Response to a Step Hypercapnic Stimulus

CO2Blood Oxygen Level–dependent MR Mapping of Cerebrovascular Reserve in a Clinical Population: Safety, Tolerability, and Technical Feasibility

Assessing Cerebrovascular Reactivity Abnormality by Comparison to a Reference Atlas

Development of White Matter Hyperintensity Is Preceded by Reduced Cerebrovascular Reactivity

Contact Info

Product

Resources

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CO₂Blood Oxygen Level–dependent MR Mapping of Cerebrovascular Reserve in a Clinical Population: Safety, Tolerability, and Technical Feasibility