Reducing vascular variability of fMRI data across aging populations using a breathholding task.
about
Prediction of Task-Related BOLD fMRI with Amplitude Signatures of Resting-State fMRISensitivity of the resting-state haemodynamic response function estimation to autonomic nervous system fluctuationsBuilding a Science of Individual Differences from fMRI.The Role of Medical Imaging in the Recharacterization of Mild Traumatic Brain Injury Using Youth Sports as a LaboratoryNeurovascular factors in resting-state functional MRIVascular autorescaling of fMRI (VasA fMRI) improves sensitivity of population studies: A pilot study.Brain atrophy can introduce age-related differences in BOLD responseThe impact of vascular factors on language localization in the superior temporal sulcus.Dissociable circuits for visual shape learning in the young and aging human brain.Assessing Cerebrovascular Reactivity in Carotid Steno-Occlusive Disease Using MRI BOLD and ASL TechniquesBrain imaging and human nutrition: which measures to use in intervention studies?Understanding variability in the BOLD signal and why it matters for aging.Group comparisons: imaging the aging brain.Applications of multivariate pattern classification analyses in developmental neuroimaging of healthy and clinical populationsImproving fMRI sensitivity by normalization of basal physiologic state.Effects of aging on cerebral blood flow, oxygen metabolism, and blood oxygenation level dependent responses to visual stimulation.Investigating the Blood Oxygenation Level-Dependent Functional MRI Response to a Verbal Fluency Task in Early Stroke before and after Hemodynamic ScalingNeural and vascular variability and the fMRI-BOLD response in normal agingNeurometabolic coupling in the lateral geniculate nucleus changes with extended age.The continuing challenge of understanding and modeling hemodynamic variation in fMRI.Assessment of unconstrained cerebrovascular reactivity marker for large age-range FMRI studies.Agreement and repeatability of vascular reactivity estimates based on a breath-hold task and a resting state scanVascular risk factors, cerebrovascular reactivity, and the default-mode brain networkIncreasing measurement accuracy of age-related BOLD signal change: minimizing vascular contributions by resting-state-fluctuation-of-amplitude scalingA comparison of physiologic modulators of fMRI signals.Effects of thoracic pressure changes on MRI signals in the brainControlled inspiration depth reduces variance in breath-holding-induced BOLD signal.Where is ELSA? The early to late shift in aging.The effect of ageing on fMRI: Correction for the confounding effects of vascular reactivity evaluated by joint fMRI and MEG in 335 adults.Calibrating BOLD fMRI activations with neurovascular and anatomical constraintsChronic smoking and the BOLD response to a visual activation task and a breath hold task in patients with schizophrenia and healthy controls.Age-related memory impairment associated with loss of parietal deactivation but preserved hippocampal activation.Age-related differences in memory-encoding fMRI responses after accounting for decline in vascular reactivityMapping and correction of vascular hemodynamic latency in the BOLD signal.Baseline blood oxygenation modulates response amplitude: Physiologic basis for intersubject variations in functional MRI signals.Hypercapnic evaluation of vascular reactivity in healthy aging and acute stroke via functional MRIInter-subject variability in hypercapnic normalization of the BOLD fMRI response.Cognitive neuroscience of aging.Hemodynamic scaling of fMRI-BOLD signal: validation of low-frequency spectral amplitude as a scalability factor.ERP correlates of item recognition memory: effects of age and performance.
P2860
Q21129324-AED20B1E-AA37-4EC1-947E-AA298B631371Q24174720-921DA927-5F37-4CDF-BFF0-203CD9C6FCB1Q24289395-61CE11B3-B662-45EE-A9DC-F260A089A076Q26772757-4B507B0E-88DE-4E0D-9675-D9CA56AAD2ADQ27024288-1AC2A7A7-E287-4F69-B40B-0602EF8EC37EQ27306742-F12258C9-766A-40B3-8973-CF12155FF0D2Q29409070-CA5B6DA1-7240-41A9-A7A2-1D302D2784A8Q30385871-C7AE5044-7879-4B70-8498-E1F2C64A7C4CQ30538080-9152F338-39D8-4A27-ACF8-495ACA2334BEQ30558978-6D2EA585-050C-4779-AACA-BC6CBA4D84B9Q30658391-3E04D1CC-694E-42D7-B90F-EACAA3DA8BB6Q30665226-9DB87D27-6622-4D6A-BE05-6DD9B198B183Q33375081-3E6C65B0-53C6-4AD6-B772-6E318D264B1AQ33515289-485FECA8-70F2-45D0-8CA8-1A6E006BCDA3Q33554928-FF21FA16-0127-4E17-947F-24E3D149D54AQ33606759-AA98A0E4-AC9F-4D54-A8C6-A9748D964707Q33809551-4666F775-BDCE-4585-BC2D-2E4E0E06D9CBQ33811825-E9A8441C-626D-4D22-AF5C-E4734AF2D27FQ33995450-BE262DA3-6AA5-4939-B307-34270B783614Q34172397-A114DE2B-6497-4433-BB8D-86E38D57B3BFQ35097524-AB30F680-3191-4C7B-989C-AAADED51F27EQ35635420-6852FB39-362E-4B27-A71C-EA4264426074Q35747415-BC316962-D041-4B07-B21E-81BF1101E253Q35848182-F2A9A372-9E87-4AF7-8F80-A234FE59E9B3Q36203260-93E00C89-639C-415D-9B2E-3C443DBB79EBQ36267202-8AD7777E-75B6-463E-9569-802092F2F6CFQ36294633-6ABE798E-5DFE-441F-8E56-7CC54D0D47BAQ36297962-17D68206-649A-47DC-82AD-6868B337FD9CQ36513412-C671B958-CE3A-4BE8-83C7-1AC52120199AQ36516103-546C4E27-A301-4ABE-99F2-1768C9B53E6DQ36559599-EEC0DCDF-DDF2-4E51-B743-833A90B1000CQ36883144-7FDD49BE-5090-40AF-9679-0A154BB35E36Q36959676-30B56205-7D01-4CCC-AAC0-00A81604CB3BQ36984141-5CC00184-06DF-4695-BB7F-95C67262C477Q37003190-99C6CCB6-0060-48CE-ACC8-EC5D3B5E163CQ37081160-A52DB569-90BF-4718-81D1-D80298B5AC22Q37107361-5F069390-D986-4037-B287-E1957DBA573BQ37133708-D03417E1-2156-44DD-AF84-5B7654E368D5Q37240271-2DDC1DF7-C97D-48CF-A4BC-B3C54310993DQ37266111-35922E3E-E27A-4254-B3AB-E9178956C4BF
P2860
Reducing vascular variability of fMRI data across aging populations using a breathholding task.
description
2007 nî lūn-bûn
@nan
2007 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Reducing vascular variability ...... ns using a breathholding task.
@ast
Reducing vascular variability ...... ns using a breathholding task.
@en
type
label
Reducing vascular variability ...... ns using a breathholding task.
@ast
Reducing vascular variability ...... ns using a breathholding task.
@en
prefLabel
Reducing vascular variability ...... ns using a breathholding task.
@ast
Reducing vascular variability ...... ns using a breathholding task.
@en
P2093
P356
P1433
P1476
Reducing vascular variability ...... ns using a breathholding task.
@en
P2093
Adam Gazzaley
Ben A Inglis
Mark D'Esposito
P2860
P304
P356
10.1002/HBM.20307
P577
2007-09-01T00:00:00Z