Regional Differences in the CBF and BOLD Responses to Hypercapnia: A Combined PET and fMRI Study
about
Respiratory challenge MRI: Practical aspectsAssessing Cerebrovascular Reactivity in Carotid Steno-Occlusive Disease Using MRI BOLD and ASL TechniquesWhite-matter diffusion fMRI of mouse optic nerve.Resting-state fMRI confounds and cleanup.Alternative thresholding methods for fMRI data optimized for surgical planning.Does functional MRI detect activation in white matter? A review of emerging evidence, issues, and future directions.Imaging the Respiratory Effects of Opioids in the Human Brain.Detecting functional magnetic resonance imaging activation in white matter: interhemispheric transfer across the corpus callosum.Differential responses of the insular cortex gyri to autonomic challenges.Bolus arrival time and cerebral blood flow responses to hypercarbiaInvestigation of fMRI activation in the internal capsule.Forebrain-dominant deficit in cerebrovascular reactivity in Alzheimer's disease.Functional MRI activation in white matter during the Symbol Digit Modalities Test.White versus gray matter: fMRI hemodynamic responses show similar characteristics, but differ in peak amplitude.Regional quantification of cerebral venous oxygenation from MRI susceptibility during hypercapnia.The influence of carbon dioxide on brain activity and metabolism in conscious humans.Instability of the middle cerebral artery blood flow in response to CO2Physiological Signal Variability in hMT+ Reflects Performance on a Direction Discrimination Task.MRI mapping of cerebrovascular reactivity via gas inhalation challenges.Cerebrovascular reactivity measured with arterial spin labeling and blood oxygen level dependent techniquesValidation of diffuse correlation spectroscopic measurement of cerebral blood flow using phase-encoded velocity mapping magnetic resonance imaging.Task Dependence, Tissue Specificity, and Spatial Distribution of Widespread Activations in Large Single-Subject Functional MRI Datasets at 7T.Controlled inspiration depth reduces variance in breath-holding-induced BOLD signal.Sources of functional magnetic resonance imaging signal fluctuations in the human brain at rest: a 7 T studyCalibrating BOLD fMRI activations with neurovascular and anatomical constraintsOn the optimization of imaging protocol for the mapping of cerebrovascular reactivity.Relationship between respiration, end-tidal CO2, and BOLD signals in resting-state fMRI.On the assessment of cerebrovascular reactivity using hypercapnia BOLD MRI.Vascular Reactivity Maps in Patients with Gliomas Using Breath-Holding BOLD fMRI.Regional homogeneity of resting-state fMRI contributes to both neurovascular and task activation variationsCerebrovascular reactivity in the brain white matter: magnitude, temporal characteristics, and age effects.A bioimage informatics based reconstruction of breast tumor microvasculature with computational blood flow predictions.The role of the anterior insula in adolescent decision making.Influence of 100% and 40% oxygen on penumbral blood flow, oxygen level, and T2*-weighted MRI in a rat stroke model.Mapping white-matter functional organization at rest and during naturalistic visual perception.Manipulation of cortical gray matter oxygenation by hyperoxic respiratory challenge: field dependence of R(2) * and MR signal response.Fine tuning breath-hold-based cerebrovascular reactivity analysis models.Iterative analysis of cerebrovascular reactivity dynamic response by temporal decomposition.Cerebral microcirculation and oxygen tension in the human secondary cortex.The effect of black tea and caffeine on regional cerebral blood flow measured with arterial spin labeling
P2860
Q26743484-D4CC1AB0-9567-49E4-8497-5FDFC440AC01Q30558978-0C55AF62-ED29-4EB2-A724-5AC3C5461BBBQ30574154-ED14184A-E166-41AB-9CFB-7EC76345F5C3Q30614230-234BBBE8-7C6A-452B-9D61-78124DB5CB56Q30666070-C7B617B7-687B-4A09-85A9-7B46C86FFAC7Q30844572-5F6ACBFB-77DB-44D1-91B4-D6ACAA8A9147Q31110579-5C5C8C24-67AC-4620-89B2-CB468A49F0FBQ33369223-254F7818-B112-4ABC-8470-A0B82700035BQ33829244-C8880DCF-97E5-4486-9022-1788FC08C5ACQ33851515-E65B828B-A0E7-488D-A5FD-0C70D82F5456Q33932300-3A5888D0-9DF1-4976-B026-7D627E07698DQ33959584-8962B662-6607-4D51-B842-47D2FCD0598BQ33997858-418131B8-9E80-4CAC-A034-165998DC12A3Q34361349-F77156AD-1797-464F-89EA-C7ADB863E7F9Q34617565-6F12D977-1197-4CD4-8520-830499B4ED17Q34627452-4C0FAC53-BF2F-47B4-85EF-C034D22DCCC9Q34923536-865790CE-459A-4FB2-83A4-EB13EF5FE858Q35151939-0CF9BA04-F006-4D03-87CA-C9BFFF3AB57EQ35414808-0B43BFC5-2AC6-4B8B-8025-323D240C1C71Q35589507-C9F01D6E-A6CB-42A1-80FB-804F48D1D190Q36051626-5708D8AE-52FB-43EF-8E40-04A6042906EDQ36256481-3F0B04F3-0BD4-4857-ADCE-36B6C80C7EE7Q36294633-FA05B2FE-0882-4CA8-8EEE-52B3A131D102Q36439683-17722A40-57E3-4988-A104-5AAE713D318BQ36516103-2349ACFC-F39F-4299-8E15-52AD79B90CA0Q36578262-E5FF475E-1085-4CFF-9361-6FC6EFBB60E3Q37290428-3E07CC8D-2B36-4D32-A283-4C711E4336E3Q37305462-EBF89C92-D405-4048-8583-D0CFC1B5E1D8Q37380167-8F304E6B-E8A3-4907-BD75-01C3856BB01AQ37416150-3F6BC853-C16D-44CD-A753-8866EBC2681EQ37559317-58AF41CE-9E90-4AF3-97BC-B882BB3D37EBQ37688862-FF90773E-034F-4E8F-AD17-4D627EBCAB05Q38213906-54621FA0-C4D1-4361-A806-AF3CE41632B2Q38370110-794EE122-6F5B-4BBD-9641-EFB46060C031Q39308297-49CEA6B4-CBCA-42A0-A340-ECCA5E3582C7Q39655778-BB41A167-E17E-4CED-9383-E2577D4DDE8BQ39825589-13F56EF2-3EDB-4CAA-AEA1-EF6673898F20Q41691392-02BA4B38-F2D1-4547-A53B-2A036826B63FQ41845813-5EA7FCA5-5BD3-42A7-8DD2-19C8B9E404CCQ42146489-A104AA6A-6CC1-4924-A6BB-D1DE3AB82DE3
P2860
Regional Differences in the CBF and BOLD Responses to Hypercapnia: A Combined PET and fMRI Study
description
article
@en
im Februar 2000 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в лютому 2000
@uk
name
Regional Differences in the CB ...... A Combined PET and fMRI Study
@en
Regional Differences in the CB ...... A Combined PET and fMRI Study
@nl
type
label
Regional Differences in the CB ...... A Combined PET and fMRI Study
@en
Regional Differences in the CB ...... A Combined PET and fMRI Study
@nl
prefLabel
Regional Differences in the CB ...... A Combined PET and fMRI Study
@en
Regional Differences in the CB ...... A Combined PET and fMRI Study
@nl
P50
P356
P1433
P1476
Regional Differences in the CB ...... A Combined PET and fMRI Study
@en
P2093
H.B.W. Larsson
P356
10.1006/NIMG.1999.0526
P407
P577
2000-02-01T00:00:00Z