Cerebral oxygen extraction fraction<scp>MRI</scp>: Techniques and applications

Jiang, Dengrong; Lu, Hanzhang

doi:10.1002/mrm.29272

Cited by 40 publications

(28 citation statements)

References 308 publications

(897 reference statements)

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“…Multi-echo EPI allows for utilizing the TE-domain information to enhance fMRI analysis compared to traditional EPI in rsfMRI studies [ 47 ]. Cerebral physiology, including CBF, cerebral blood volume, CMRO2, and oxygen extraction fraction, can be measured using perfusion MRI, BOLD fMRI, and cerebral oxygen extraction fraction MRI techniques in humans and animals [ 48 , 49 ]. Functional connectivity can be estimated quantitatively using rsfMRI, positron emission tomography (PET), near-infrared spectroscopy (NIRS), electroencephalography (EEG), and magnetoencephalography (MEG) [ 50 ].…”

Section: Methodsmentioning

confidence: 99%

Effects of Anesthesia on Cerebral Blood Flow and Functional Connectivity of Nonhuman Primates

Zhang

2022

Veterinary Sciences

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Nonhuman primates (NHPs) are the closest living relatives of humans and play a critical and unique role in neuroscience research and pharmaceutical development. General anesthesia is usually required in neuroimaging studies of NHPs to keep the animal from stress and motion. However, the adverse effects of anesthesia on cerebral physiology and neural activity are pronounced and can compromise the data collection and interpretation. Functional connectivity is frequently examined using resting-state functional MRI (rsfMRI) to assess the functional abnormality in the animal brain under anesthesia. The fMRI signal can be dramatically suppressed by most anesthetics in a dose-dependent manner. In addition, rsfMRI studies may be further compromised by inter-subject variations when the sample size is small (as seen in most neuroscience studies of NHPs). Therefore, proper use of anesthesia is strongly demanded to ensure steady and consistent physiology maintained during rsfMRI data collection of each subject. The aim of this review is to summarize typical anesthesia used in rsfMRI scans of NHPs and the effects of anesthetics on cerebral physiology and functional connectivity. Moreover, the protocols with optimal rsfMRI data acquisition and anesthesia procedures for functional connectivity study of macaque monkeys are introduced.

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Section: Methodsmentioning

confidence: 99%

Effects of Anesthesia on Cerebral Blood Flow and Functional Connectivity of Nonhuman Primates

Zhang

2022

Veterinary Sciences

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“…Using MRI can detect flowing blood and puzzling vascular malformations as well as demyelination disease without beam-hardening artifacts and any ionizing radiation (8,9). Compared to PET, MRI completes one scan faster with a temporal resolution of ~3 seconds (9)(10)(11). These advantages make MRI tests the leading neuroimaging techniques in differential diagnosis of CVDs.…”

Section: Overview Of Mri In Diagnosis Of Cvdsmentioning

confidence: 99%

“…The strength of this technique is having good spatial resolution of 1 mm that is far beyond the resolution of other imaging techniques. Correspondingly, BOLD-based MRI is particularly useful in determining prior mini-strokes (11,12).…”

Section: Mechanisms Underlying Mrismentioning

confidence: 99%

Advances in differential diagnosis of cerebrovascular diseases in magnetic resonance imaging: a narrative review

Li¹,

Su²,

Yuan³

et al. 2023

Quant Imaging Med Surg

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Background and Objective: Cerebrovascular diseases (CVDs), particularly cerebral stroke, remain a primary cause of disability and death worldwide. Accurate diagnosis of CVDs is essential to guide therapeutic decisions and foresee the prognosis. Different CVDs have different pathological processes while they have many signs in common with some other brain diseases. Thus, differential diagnoses of strokes from other primary and secondary CVDs are especially important and challenging.Methods: This review is composed mainly based on searching PubMed articles

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“…Quantitative measurements of cerebral oxygen extraction fraction (OEF), or the ratio of oxygen consumed by brain tissue to that which is delivered, provide valuable functional information regarding tissue health in patients with cerebrovascular and neurodegenerative diseases. [1][2][3][4] OEF can be quantified using 15 O-positron emission tomography (PET) 1,5,6 ; however, this technique requires ionizing radiation, arterial blood sampling, and an on-site cyclotron due to the short 122 s half-life of 15 O, rendering it impractical as a generalizable diagnostic tool. Alternative T 2 -relaxation-under-spin-tagging (TRUST) 7 and asymmetric spin echo (ASE) 8 methods have been proposed for measuring OEF non-invasively in vivo using MRI.…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Vascular space occupancy asymmetric spin echo (VASO‐ASE) for non‐invasive quantification of cerebral oxygen extraction fraction

Waddle

Garza

Ying

et al. 2023

Magnetic Resonance in Med

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Purpose Asymmetric spin echo (ASE) MRI is a method for measuring regional oxygen extraction fraction (OEF); however, extravascular tissue models have been shown to under‐estimate OEF. The hypothesis investigated here is that the addition of a vascular‐space‐occupancy (VASO) pre‐pulse will more fully suppress blood water signal and provide global OEF values more consistent with physiological expectation and 15O positron emission tomography (PET)‐validated T2‐relaxation‐under‐spin‐tagging (TRUST) OEF measures. Methods Healthy adults (n = 14; age = 27.7 ± 5.2 y; sex = 7/7 male/female) were scanned at 3.0T. Multi‐echo ASE without inter‐readout refocusing (ASERF−), multi‐echo ASE with inter‐readout refocusing (ASERF+), and single‐echo VASO‐ASE were acquired twice each with common spatial resolution = 3.44 × 3.44 × 3.0 mm and τ = 0–20 ms (interval = 0.5 ms). TRUST was acquired twice sequentially for independent global OEF assessment (τCPMG = 10 ms; effective TEs = 0, 40, 80, and 160 ms; spatial resolution = 3.4 × 3.4 × 5 mm). OEF intraclass‐correlation‐coefficients (ICC), summary statistics, and group‐wise differences were assessed (Wilcoxon rank‐sum; significance: two‐sided p < 0.05). Results ASERF+ (OEF = 36.8 ± 1.9%) and VASO‐ASE (OEF = 34.4 ± 2.3%) produced OEF values similar to TRUST (OEF = 36.5 ± 4.6%, human calibration model; OEF = 32.7 ± 4.9%, bovine calibration model); however, ASERF− yielded lower OEF (OEF = 26.1 ± 1.0%; p < 0.01) relative to TRUST. VASO‐ASE (ICC = 0.61) yielded lower ICC compared to other ASE variants (ICC >0.89). Conclusion VASO‐ASE and TRUST provide similar OEF values; however, VASO‐ASE spatial coverage and repeatability improvements are required.

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Cerebral oxygen extraction fractionMRI: Techniques and applications

Cited by 40 publications

References 308 publications

Effects of Anesthesia on Cerebral Blood Flow and Functional Connectivity of Nonhuman Primates

Effects of Anesthesia on Cerebral Blood Flow and Functional Connectivity of Nonhuman Primates

Advances in differential diagnosis of cerebrovascular diseases in magnetic resonance imaging: a narrative review

Vascular space occupancy asymmetric spin echo (VASO‐ASE) for non‐invasive quantification of cerebral oxygen extraction fraction

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