Litcius/Paper detail

Cerebral oxygen extraction fraction: Comparison of dual‐gas challenge calibrated BOLD with CBF and challenge‐free gradient echo QSM+qBOLD

Junghun Cho, Yuhan Ma, Pascal Spincemaille, Gilbert Bruce Pike, Yi Wang

2020Magnetic Resonance in Medicine27 citationsDOIOpen Access PDF

Abstract

Purpose To compare cortical gray matter oxygen extraction fraction (OEF) estimated from 2 MRI methods: (1) the quantitative susceptibility mapping (QSM) plus quantitative blood oxygen level dependent imaging (qBOLD) (QSM+qBOLD or QQ), and (2) the dual‐gas calibrated‐BOLD (DGCB) in healthy subjects; and to investigate the validity of iso‐cerebral metabolic rate of oxygen consumption assumption during hypercapnia using QQ. Methods In 10 healthy subjects, 3 tesla MRI including a multi‐echo gradient echo sequence at baseline and hypercapnia for QQ, as well as an EPI dual‐echo pseudo‐continuous arterial spin labeling for DGCB, were performed under a hypercapnic and a hyperoxic condition. OEFs from QQ and DGCB were compared using region of interest analysis and paired t test. For QQ, cerebral metabolic rate of oxygen consumption = cerebral blood flow*OEF*arterial oxygen content was generated for both baseline and hypercapnia, which were compared. Results Average OEF in cortical gray matter across 10 subjects from QQ versus DGCB was 35.5 ± 6.7% versus 38.0 ± 9.1% ( P = .49) at baseline and 20.7 ± 4.4% versus 28.4 ± 7.6% ( P = .02) in hypercapnia: OEF in cortical gray matter was significantly reduced as measured in QQ ( P < .01) and in DGCB ( P < .01). Cerebral metabolic rate of oxygen consumption (in μmol O 2 /min/100 g) was 168.2 ± 54.1 at baseline from DGCB and was 153.1 ± 33.8 at baseline and 126.4 ± 34.2 ( P < .01) in hypercapnia from QQ. Conclusion The differences in OEF obtained from QQ and DGCB are small and nonsignificant at baseline but are statistically significant during hypercapnia. In addition, QQ shows a cerebral metabolic rate of oxygen consumption decrease (17.4%) during hypercapnia.

Topics & Concepts

HypercapniaCerebral blood flowOxygenNuclear medicineMedicineChemistryAnesthesiaNuclear magnetic resonanceInternal medicineRespiratory systemPhysicsOrganic chemistryAdvanced MRI Techniques and ApplicationsOptical Imaging and Spectroscopy TechniquesCerebrospinal fluid and hydrocephalus