Frequency-dependent changes of regional cerebral blood flow during finger movements: functional MRI compared to PET.
about
Nuclear magnetic resonance spectroscopy and imaging in animal researchTransfer of piano practice in fast performance of skilled finger movementsHemispheric asymmetry of frequency-dependent suppression in the ipsilateral primary motor cortex during finger movement: a functional magnetic resonance imaging studyComplex versus simple ankle movement training in stroke using telerehabilitation: a randomized controlled trial.Comparison of matched BOLD and FAIR 4.0T-fMRI with [15O]water PET brain volumes.Functional neuroimaging studies of early upper limb recovery after stroke: a systematic review of the literature.Functional and effective connectivity of visuomotor control systems demonstrated using generalized partial least squares and structural equation modeling.Simultaneous measurements of kinematics and fMRI: compatibility assessment and case report on recovery evaluation of one stroke patientMotor subcircuits mediating the control of movement extent and speed.Cerebellum and integration of neural networks in dual-task processing.Accounting for movement increases sensitivity in detecting brain activity in Parkinson's diseaseIs the brain's inertia for motor movements different for acceleration and deceleration?Neural correlates of bimanual anti-phase and in-phase movements in Parkinson's disease.A novel fMRI paradigm suggests that pedaling-related brain activation is altered after strokeEffects of a 60 Hz Magnetic Field Exposure Up to 3000 μT on Human Brain Activation as Measured by Functional Magnetic Resonance Imaging.Cerebellar activation during discrete and not continuous timed movements: an fMRI study.More than just tapping: index finger-tapping measures procedural learning in schizophrenia.Hyperbaric oxygen and cerebral physiology.Caffeine's effects on cerebrovascular reactivity and coupling between cerebral blood flow and oxygen metabolism.BOLD consistently matches electrophysiology in human sensorimotor cortex at increasing movement rates: a combined 7T fMRI and ECoG study on neurovascular coupling.How do we select perceptions and actions? Human brain imaging studiesRegional Changes in Cerebral Oxygenation During Repeated Passive Movement Measured by Functional Near-infrared Spectroscopy.Subcortical overactivation in untreated schizophrenic patients: a functional magnetic resonance image finger-tapping study.How self-initiated memorized movements become automatic: a functional MRI study.BOLD neurovascular coupling does not change significantly with normal aging.Operative approach due to results of functional magnetic resonance imaging in central brain tumors.Lateralization of brain activity pattern during unilateral movement in Parkinson's disease.Motor subcircuits mediating the control of movement velocity: a PET study.Primary motor area activation during precision-demanding versus simple finger movement.Coordination dynamics of large-scale neural circuitry underlying rhythmic sensorimotor behavior.Brain correlates of fast and slow handwriting in humans: a PET-performance correlation analysis.Post-exercise depression in corticomotor excitability after dynamic movement: a general property of fatiguing and non-fatiguing exercise.Movement quantity and frequency coding in human motor areas.Mirror movements complicate interpretation of cerebral activation changes during recovery from subcortical infarction.Functional correlates of pallidal stimulation for Parkinson's disease.Vicarious function within the human primary motor cortex? A longitudinal fMRI stroke study.Hand tapping at mixed frequencies requires more motor cortex activity compared to single frequencies: an fNIRS study.Neuroleptic therapy influences basal ganglia activation: a functional magnetic resonance imaging study comparing controls to haloperidol- and olanzapine-treated inpatients.Dependence of oxygen delivery on blood flow in rat brain: a 7 tesla nuclear magnetic resonance study.Simultaneous movements of upper and lower limbs are coordinated by motor representations that are shared by both limbs: a PET study
P2860
Q28201924-4C1506F9-E2B7-465B-81DD-F303DCB51663Q30355096-F02E46AB-E15E-43C0-A6D7-EAFA5E851A5BQ30484573-1BF916E6-82B2-40CA-BD9C-1D388F23F154Q30504571-55510228-4A56-4313-A2E1-D6B076E636DFQ30581958-141F7313-1C3B-4C9E-BD4A-A9A30CDC1E02Q33571270-BD103A5C-FE3B-4891-8E09-B0D9933AC051Q33702482-D9A1BB8D-D9DD-466A-B385-F8F026F5FDC5Q34202952-3D879235-F377-4475-B4A5-BA4CE4F51DACQ34227725-32BF9EF7-95C7-4D98-ABF3-532687ED01D9Q34235158-C82B4727-15A5-4D2A-BF28-1C22EB5DB784Q34260096-12DFFAD7-C33C-46EC-889B-49EE538899D1Q35035972-718DC264-69D7-4834-8679-A73ACF7A69E2Q35116514-04E3FA01-9282-4413-BA9C-C0152B761607Q35681095-FF83550F-DFE0-414F-87B1-EA457B040274Q35716065-3E1396C0-6B8E-4E6C-BAC8-E1EE0C93574AQ35867435-5EBA415F-BD65-4354-AAE4-FEDD45E7D773Q35957265-4DD9696A-3575-47AF-B247-76D78BCD9728Q36793992-56B48AD8-C965-4851-91B3-A749431462C8Q37126016-7780041E-E5C9-479A-92B0-E333624A2D7FQ37150352-92DC4D47-A999-4D17-99E4-67B60A8B3839Q40850958-3409202E-EED1-4222-B31F-3EA248571FCCQ43157130-5A57B304-5786-427A-B204-BA3E2135984DQ43944964-6884EBFE-CA70-4DEA-B18F-BDB946E3E4BBQ47360345-4B9CF9B5-1E3D-42C9-BFB6-14FB7E3E96B9Q48263259-C3026089-EAB9-47BE-B516-786C8EF9DACEQ48278021-6C825550-62D9-4D00-8936-50244AB7C580Q48347931-90A74F5C-E7A0-49FB-B4A5-A358CBF731B7Q48376274-E43A17CC-EF2D-4B64-A0B9-EFAACB245787Q48456267-E414C9B8-D76B-4BF1-99C9-C535D88D76A9Q48763672-F3C188D7-8B17-49E0-8B04-22B8C07547C7Q48792760-BC4FABA6-6643-4B6C-B148-9466D2A47889Q48805245-A190D107-BF97-4C1A-8885-EE45BCCF5FEAQ48863406-A6692362-98CD-4002-9C43-D2330F834295Q48939646-F1EFC3F5-B39E-4BAA-8A42-650022EFB951Q48970348-C23DDFD2-52A4-49C0-A9D1-919C1DA0A523Q49022889-2847D700-FAE6-4605-81CF-0F13E5D60DC1Q49060960-031AB9DC-13C9-4881-B91F-70BC9DB3FD36Q49108304-DC04E875-0FD5-485A-9800-62E4F031EFDAQ51411154-239EBD74-2867-4DC4-B079-8A701ACAAC2DQ57515325-EC080ECF-AE77-4885-96E4-340D99D28337
P2860
Frequency-dependent changes of regional cerebral blood flow during finger movements: functional MRI compared to PET.
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
1997年论文
@zh
1997年论文
@zh-cn
name
Frequency-dependent changes of ...... unctional MRI compared to PET.
@en
type
label
Frequency-dependent changes of ...... unctional MRI compared to PET.
@en
prefLabel
Frequency-dependent changes of ...... unctional MRI compared to PET.
@en
P2093
P1476
Frequency-dependent changes of ...... functional MRI compared to PET
@en
P2093
P2860
P304
P356
10.1097/00004647-199706000-00008
P577
1997-06-01T00:00:00Z
P5875
P6179
1043906617