A comparative fMRI study of cortical representations for thermal painful, vibrotactile, and motor performance tasks.
about
Single subject pharmacological-MRI (phMRI) study: modulation of brain activity of psoriatic arthritis pain by cyclooxygenase-2 inhibitor.Coordinate-based activation likelihood estimation meta-analysis of neuroimaging data: a random-effects approach based on empirical estimates of spatial uncertaintySpatially aggregated multiclass pattern classification in functional MRI using optimally selected functional brain areasCommon brain activations for painful and non-painful aversive stimuliFunctional Magnetic Resonance Imaging of Pain Consciousness: Cortical Networks of Pain Critically Depend on What is Implied by "Pain"Differential coding of pain intensity in the human primary and secondary somatosensory cortex.Painful stimuli evoke different stimulus-response functions in the amygdala, prefrontal, insula and somatosensory cortex: a single-trial fMRI study.Pain facilitates tactile processing in human somatosensory cortices.Dipole source analysis of laser-evoked subdural potentials recorded from parasylvian cortex in humans.Automated classification of pain perception using high-density electroencephalography data.Cutaneous painful laser stimuli evoke responses recorded directly from primary somatosensory cortex in awake humans.Attenuation of N2 amplitude of laser-evoked potentials by theta burst stimulation of primary somatosensory cortex.Central pain processing in chronic chemotherapy-induced peripheral neuropathy: a functional magnetic resonance imaging studyAttention to painful cutaneous laser stimuli evokes directed functional connectivity between activity recorded directly from human pain-related cortical structures.Dipole source analyses of laser evoked potentials obtained from subdural grid recordings from primary somatic sensory cortex.Progress in sensorimotor rehabilitative physical therapy programs for stroke patientsStudies of properties of "Pain Networks" as predictors of targets of stimulation for treatment of pain.Cortical representation of pain in primary sensory-motor areas (S1/M1)--a study using intracortical recordings in humans.EEG analysis reveals widespread directed functional interactions related to a painful cutaneous laser stimulus.Physical temperature effects on trust behavior: the role of insulaSpatiotemporal relations of primary sensorimotor and secondary motor activation patterns mapped by NIR imaging.Pain and emotion interactions in subregions of the cingulate gyrusFunctional activation and neural networks in women with posttraumatic stress disorder related to intimate partner violence.The role of neuroimaging for the diagnosis and treatment of anxiety disorders.Sulcal depth-position profile is a genetically mediated neuroscientific trait: description and characterization in the central sulcus.Structural and functional asymmetry in the human parietal opercular cortex.Functional near-infrared spectroscopy maps cortical plasticity underlying altered motor performance induced by transcranial direct current stimulation.A cognitive framework for explaining serial processing and sequence execution strategies.Differential fMRI activation to noxious heat and tactile stimuli in parasylvian areas of new world monkeys."Lacking warmth": Alexithymia trait is related to warm-specific thermal somatosensory processingFunctional neuroimaging correlates of finger-tapping task variations: an ALE meta-analysis.Volitional control of the anterior insula in criminal psychopaths using real-time fMRI neurofeedback: a pilot study.Neuronal correlates of gastric pain induced by fundus distension: a 3T-fMRI study.Common structural correlates of trait impulsiveness and perceptual reasoning in adolescence.Cortical responses to thermal pain depend on stimulus size: a functional MRI study.Pain response in depersonalization: a functional imaging study using hypnosis in healthy subjects.Pain processing within the primary somatosensory cortex in humans.Somatic sensation and the insular-opercular cortex: relationship to central pain.Differential effects of cognitive demand on human cortical activation associated with vibrotactile stimulation.Differentiating noxious- and innocuous-related activation of human somatosensory cortices using temporal analysis of fMRI.
P2860
Q24812118-FF1CF7B4-C908-4777-AE20-0D2A9629A3FCQ29615013-62B3B576-AE18-4ED5-9883-09DC6CC77EF1Q30443677-BDC921D4-8182-41BF-B8A6-69E593E8031FQ30462682-D85A5F50-532D-4883-B54C-D32937CB64D0Q30613358-9C80F1E4-58D7-44D6-A4D2-728CFE88E42CQ30708143-AEBD70A8-7677-4C96-A439-269E7C4F9AC5Q30731923-1309BB74-1D5D-45D7-8D97-A740B59DC314Q31054082-9546B605-5DD7-4672-BF78-3BED9340DFA9Q31144408-2F9332CF-449A-4A0B-A4D2-BDAF7278B95EQ31146220-E518E29F-350F-4CE1-9546-900C8F5D6354Q33194653-2C5F6529-19FD-4AC8-90C0-E8C8AD2C2A40Q33307562-C709999B-CB77-4FBE-A420-F285E6F869F2Q33599361-85281088-7ADE-4B07-8399-0E2C370FA042Q33800221-F5CED400-1018-4969-963D-E7B3A09A6591Q33905103-4D92207E-17C8-4679-A20C-696E59B8F749Q34047578-1F3BF0EC-48FD-4949-8C32-A223FAC30D91Q34098850-AB782F60-A7D0-4ADC-AA49-50697EFEA442Q34307257-1B43C704-9785-4B75-B42C-1780C4B28236Q34941824-E209B045-834E-4ED2-AC2E-5870ACA2A580Q35149363-2C166A9C-022B-4BFC-B5B7-C630133AA705Q35599669-E9644991-EBB3-4B24-942A-3837236E04BAQ36182989-D1DABDB6-A5DE-4F17-95B8-86F70A458AA1Q37081170-756FC062-4CCF-4F94-9979-27252DBB0BD7Q37138387-30092FFC-6EE6-4CA4-929B-9F1379C85110Q37196333-E6ADE550-E82B-4E73-A2CB-9C4B86717AEFQ37279119-86C5C8DC-2F86-4A63-B2E9-F61591709B2BQ37280932-1C278D55-679D-40B0-AF2F-CA1978437A60Q38271042-AD3CF261-8282-443C-9A82-57951D60E37FQ39987216-7EDB38BE-50AA-4621-A763-5C3E767CD123Q41231015-5D8CDB40-40DB-4CF7-9217-F4CD746E2BA5Q41407676-6BDAA53E-7BF1-45B8-8465-DBAD618BD97DQ41854526-63317820-2B08-4098-8401-22B3F08C6CEEQ42469524-9480DF54-BA42-4E66-A377-D5AC97D432C2Q45764658-CCDB60E0-9EC6-4716-BCD6-BD832D97FAB9Q47239539-4C9C7149-A64C-4991-84D4-5C1601CE60B9Q47298527-37A784A5-A5FF-4C86-BD56-CB0D04594064Q48125499-5F55C37A-F762-47B8-B9A1-0F53C35742F5Q48518306-A050B61D-3DE2-46F8-8A65-E4E3E3A61879Q48555149-EC87A008-7953-417D-AFA2-2FC7A61C734AQ48563977-F441FB3C-0A09-4A38-B290-2E6A5BFD40B6
P2860
A comparative fMRI study of cortical representations for thermal painful, vibrotactile, and motor performance tasks.
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
A comparative fMRI study of co ...... , and motor performance tasks.
@en
type
label
A comparative fMRI study of co ...... , and motor performance tasks.
@en
prefLabel
A comparative fMRI study of co ...... , and motor performance tasks.
@en
P2093
P356
P1433
P1476
A comparative fMRI study of co ...... e, and motor performance tasks
@en
P2093
Szeverenyi NM
P304
P356
10.1006/NIMG.1999.0482
P407
P577
1999-10-01T00:00:00Z