Evaluation of parameters extracted from tissue residue functions in dynamic susceptibility contrast MRI: Healthy volunteers examined during normal breathing and spontaneous hyperventilation
Ronnie Wirestam, Arthur Chakwizira, Peter Reinstrup

TL;DR
This study evaluates how breathing changes affect MRI measurements of brain blood flow and oxygen use in healthy people.
Contribution
The study introduces a new method using biophysical modeling to assess oxygen extraction in the brain during different breathing conditions.
Findings
Whole-brain MTT and AOEF increased by about 33% and 30%, respectively, during hyperventilation.
Arterial delay was 63% longer during hyperventilation compared to normal breathing.
The Bézier curve deconvolution algorithm produced reliable tissue residue functions without oscillations or negative values.
Abstract
Dynamic susceptibility contrast magnetic resonance imaging (DSC-MRI) is the most common MRI method in clinical environments for assessment of perfusion-related parameters. In this study, special emphasis was placed on the shape of the tissue residue function under different physiological conditions. DSC-MRI-based parameters assumed to reflect arterial delay and cerebral oxygen extraction were obtained by deconvolution of tissue and arterial contrast-agent concentration time curves. The established mean transit time (MTT) estimate was supplemented by biophysical modelling for extraction of the oxygen extraction capacity, quantified in terms of an apparent oxygen extraction fraction (AOEF) index. Eight healthy volunteers were examined during normal breathing and spontaneous hyperventilation. Whole-brain MTT and AOEF increased during hyperventilation in all volunteers (average increase 33…
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Taxonomy
TopicsAdvanced MRI Techniques and Applications · Atomic and Subatomic Physics Research · Functional Brain Connectivity Studies
