A theoretical framework for estimating cerebral oxygen metabolism changes using the calibrated-BOLD method: modeling the effects of blood volume distribution, hematocrit, oxygen extraction fraction, and tissue signal properties on the BOLD signal
about
Building a Science of Individual Differences from fMRI.A review of calibrated blood oxygenation level-dependent (BOLD) methods for the measurement of task-induced changes in brain oxygen metabolismMagnetic resonance imaging of ischemia viability thresholds and the neurovascular unit.The physics of functional magnetic resonance imaging (fMRI).MRI-based methods for quantification of the cerebral metabolic rate of oxygenThe roadmap for estimation of cell-type-specific neuronal activity from non-invasive measurements.An analysis of the use of hyperoxia for measuring venous cerebral blood volume: comparison of the existing method with a new analysis approachMeasurement of OEF and absolute CMRO2: MRI-based methods using interleaved and combined hypercapnia and hyperoxiaDynamic models of BOLD contrast.Biophysical and physiological origins of blood oxygenation level-dependent fMRI signalsA pathophysiological framework of hippocampal dysfunction in ageing and diseaseCerebral blood volume changes during brain activation.A novel method of combining blood oxygenation and blood flow sensitive magnetic resonance imaging techniques to measure the cerebral blood flow and oxygen metabolism responses to an unknown neural stimulus.A New Functional MRI Approach for Investigating Modulations of Brain Oxygen MetabolismQuantifying the microvascular origin of BOLD-fMRI from first principles with two-photon microscopy and an oxygen-sensitive nanoprobeThe coupling of cerebral blood flow and oxygen metabolism with brain activation is similar for simple and complex stimuli in human primary visual cortexInvestigating the field-dependence of the Davis model: Calibrated fMRI at 1.5, 3 and 7T.Metabolic and vascular origins of the BOLD effect: Implications for imaging pathology and resting-state brain function.Cerebrovascular reactivity measured with arterial spin labeling and blood oxygen level dependent techniquesUnderstanding the dynamic relationship between cerebral blood flow and the BOLD signal: Implications for quantitative functional MRIIndication of BOLD-specific venous flow-volume changes from precisely controlled hyperoxic vs. hypercapnic calibration.Anti-correlated networks, global signal regression, and the effects of caffeine in resting-state functional MRI.The absolute CBF response to activation is preserved during elevated perfusion: Implications for neurovascular coupling measuresQuantitative β mapping for calibrated fMRI.Luminance contrast of a visual stimulus modulates the BOLD response more than the cerebral blood flow response in the human brain.Coupling of cerebral blood flow and oxygen metabolism is conserved for chromatic and luminance stimuli in human visual cortex.Calibrating the BOLD response without administering gases: comparison of hypercapnia calibration with calibration using an asymmetric spin echo.A novel Bayesian approach to accounting for uncertainty in fMRI-derived estimates of cerebral oxygen metabolism fluctuationsRelationships between hypercarbic reactivity, cerebral blood flow, and arterial circulation times in patients with moyamoya disease.Adaptation of cerebral oxygen metabolism and blood flow and modulation of neurovascular coupling with prolonged stimulation in human visual cortexThe amplitude of the resting-state fMRI global signal is related to EEG vigilance measuresNon-invasive quantification of absolute cerebral blood volume during functional activation applicable to the whole human brain.Noninvasive MRI measurement of the absolute cerebral blood volume-cerebral blood flow relationship during visual stimulation in healthy humans.How bold is blood oxygenation level-dependent (BOLD) magnetic resonance imaging of the kidney? Opportunities, challenges and future directions.Prospects for quantitative fMRI: investigating the effects of caffeine on baseline oxygen metabolism and the response to a visual stimulus in humansUsing an achiasmic human visual system to quantify the relationship between the fMRI BOLD signal and neural responseMagnetic resonance fingerprinting based on realistic vasculature in mice.Time delay processing of hypercapnic fMRI allows quantitative parameterization of cerebrovascular reactivity and blood flow delays.Variability of the coupling of blood flow and oxygen metabolism responses in the brain: a problem for interpreting BOLD studies but potentially a new window on the underlying neural activity.Quantification of the cortical contribution to the NIRS signal over the motor cortex using concurrent NIRS-fMRI measurements.
P2860
Q24289395-9B40FD82-52EB-4042-B059-F4B21B80D8B2Q26852354-C259CDA9-A4AA-40F3-A952-658731665339Q30634170-3B3BBB61-C738-4D60-8D8C-95270E61D273Q30665074-F3B97FD0-2764-4A80-A4FB-FFE91FDBB50DQ31080116-216A2FEA-3F27-4887-B5DB-4463FC0178E4Q31125454-E8FA8FF1-8D8D-43FC-9FEF-02439AB9A618Q33577309-B54DA5DA-EDA6-4DAA-A377-6279BB5B52C9Q34117873-0471D512-55E1-4A2E-9516-19CDA8E0D887Q34127591-3868A202-714F-4500-A7D5-2DEE9347E951Q34186634-38E2D413-837A-477A-95C7-BF79DEFCEC5DQ34214060-064B14A6-9151-45FD-89F4-399BEA311A97Q34262528-256BA096-556A-4700-8D52-34E33B0653BCQ34575706-095647F9-4AFD-435B-9640-0854B73CF3A8Q34797787-53B02138-18F1-44F6-AD5B-43A9027706A8Q35117656-3231BFC8-98E0-431A-B3E6-9D9FF672E56EQ35180711-3610FE3A-F265-44A3-BDC8-ABD8391C853DQ35542099-C2890A76-E6F5-47B8-ADD9-A7C68BACB18AQ35569611-A5BC1113-0767-4189-9863-53392F6F2C73Q35589507-07F216BF-F5BA-4F2E-AC19-AB5824AF76F7Q35744167-46FF43B4-15EE-4332-B3D0-D961165386D9Q35866857-137410FA-88C8-4C48-A740-9812AE8131BFQ36240225-C430FF14-E705-45E2-87B6-7181A8B99357Q36408043-9DA39372-5ED1-45AA-8086-D37C30EB4F49Q36522707-D26E24B2-92DB-4985-A518-27782C8FC029Q36534731-C7555948-A2AA-4369-81A9-4100AFE0D68BQ36571629-F77A6322-8261-43D5-9245-17A98C18D811Q36716423-3DF0F6A6-37B3-4504-9A57-B1C4AB56C767Q36794816-31EA9B20-AE45-466F-8B2E-D974FE3373F4Q36909081-9896F75F-08E2-4647-A210-0FC8CBF34E42Q37205719-BFCA101D-07D3-453D-B340-46D7203B595FQ37275082-831BEF60-7AC0-41B3-BDDA-149FA4155926Q37445616-D6DFA248-5307-44EA-8C9E-D90603734CC1Q37714533-9A037B89-1F56-41CC-A340-8AEEE54B4C0BQ38247565-CF39C3C0-35B1-46C7-868B-20B86F3085E1Q38391472-5ABD5F7F-F2FF-4A61-B5E8-472B27A547BCQ38604610-A7C84AE7-9A76-48E9-985B-F8AD9C93D0C3Q39043863-B136A441-0ABD-4B8F-AC9A-B430553E36FFQ40218009-880A545E-6CCD-462C-AE14-AE98F29EF0F7Q40555889-116D0285-43E0-419D-8BE7-5929E6F2BDADQ41121113-B08EFA71-2E04-44FE-AD1F-92637C214F4E
P2860
A theoretical framework for estimating cerebral oxygen metabolism changes using the calibrated-BOLD method: modeling the effects of blood volume distribution, hematocrit, oxygen extraction fraction, and tissue signal properties on the BOLD signal
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
A theoretical framework for es ...... properties on the BOLD signal
@en
type
label
A theoretical framework for es ...... properties on the BOLD signal
@en
prefLabel
A theoretical framework for es ...... properties on the BOLD signal
@en
P2860
P1433
P1476
A theoretical framework for es ...... properties on the BOLD signal
@en
P2093
Richard B Buxton
Valerie E M Griffeth
P2860
P304
P356
10.1016/J.NEUROIMAGE.2011.05.077
P407
P577
2011-06-06T00:00:00Z