Evaluating the consistency and specificity of neuroimaging data using meta-analysis
about
sameAs
On the plurality of (methodological) worlds: estimating the analytic flexibility of FMRI experimentsTracking replicability as a method of post-publication open evaluationEmotion effects on attention, amygdala activation, and functional connectivity in schizophreniaBrain networks of perceptual decision-making: an fMRI ALE meta-analysisStructural and functional neural adaptations in obstructive sleep apnea: An activation likelihood estimation meta-analysisVisualizing data mining results with the Brede toolsDysfunction of the prefrontal cortex in addiction: neuroimaging findings and clinical implications.A meta-analysis of sex differences in human brain structureAn Open, Large-Scale, Collaborative Effort to Estimate the Reproducibility of Psychological ScienceLarge-scale automated synthesis of human functional neuroimaging dataMeta-analysis: how does posterior parietal cortex contribute to reasoning?Decoding the role of the insula in human cognition: functional parcellation and large-scale reverse inference.Common brain activations for painful and non-painful aversive stimuliIdentifying a network of brain regions involved in aversion-related processing: a cross-species translational investigationThe brain network for deductive reasoning: a quantitative meta-analysis of 28 neuroimaging studies.Stimulus complexity and categorical effects in human auditory cortex: an activation likelihood estimation meta-analysisAmygdala recruitment in schizophrenia in response to aversive emotional material: a meta-analysis of neuroimaging studiesA quantitative meta-analysis of functional imaging studies of social rejectionMeta-analysis of neuroimaging dataThe impact of oxytocin administration on brain activity: a systematic review and meta-analysis protocolNeural correlates of heart-focused interoception: a functional magnetic resonance imaging meta-analysis.ALE Meta-Analysis Workflows Via the Brainmap Database: Progress Towards A Probabilistic Functional Brain AtlasInvestigating the functional heterogeneity of the default mode network using coordinate-based meta-analytic modeling.Developmental meta-analysis of the functional neural correlates of autism spectrum disorders.The voice of conscience: neural bases of interpersonal guilt and compensation.Enhanced visual functioning in autism: an ALE meta-analysis.The many faces of preparatory control in task switching: reviewing a decade of fMRI research.Multinomial inference on distributed responses in SPMIntrinsic brain network abnormalities in migraines without aura revealed in resting-state fMRIIdentifying functional co-activation patterns in neuroimaging studies via poisson graphical models.The dorsal medial frontal cortex is sensitive to time on task, not response conflict or error likelihood.Functional connectivity modeling of consistent cortico-striatal degeneration in Huntington's disease.Voxel-wise meta-analyses of brain blood flow and local synchrony abnormalities in medication-free patients with major depressive disorderFunctional characterization and differential coactivation patterns of two cytoarchitectonic visual areas on the human posterior fusiform gyrus.Identifying functional subdivisions in the human brain using meta-analytic activation modeling-based parcellation.Beyond human intentions and emotionsAltered resting-state functional activity in posttraumatic stress disorder: A quantitative meta-analysisThe valuation system: a coordinate-based meta-analysis of BOLD fMRI experiments examining neural correlates of subjective value.Abnormalities of regional brain function in Parkinson's disease: a meta-analysis of resting state functional magnetic resonance imaging studies.Cognitive neuroscience 2.0: building a cumulative science of human brain function.
P2860
Q24273352-796E5ED4-B046-4DF6-8028-996904A1F745Q24273360-45682208-17EF-422A-8FA3-E98C210896C2Q24598682-14D767BA-7019-457A-B08E-957B3C72D7DFQ25855309-17300805-A5B6-40F6-A4D0-C0F89DC3B149Q26753078-EC7C5FB1-A6DC-45CE-B93D-F7E222319CC2Q26820755-3D6848FE-2F23-42DE-BBDC-B6CAA282600DQ26823158-0432D483-A122-4DD7-9C7A-A243C0F29116Q26850563-8EE45779-3809-46BF-8883-FF257AA23993Q28264997-E6C23FC7-8786-4B30-8253-A03D4256CEC4Q28916750-9455C222-349C-4335-A4DD-3798FB1140FCQ29041425-ADFE2011-B841-4020-9194-EDBB3F3CB5C5Q30442211-F87E74B4-3FDC-4D1C-9EC8-F89733A76920Q30462682-922EB397-FBC2-4BE2-AD4D-FC32136CD0D4Q30472842-DC19B61A-16A0-49DE-9BFB-A954B4B2EBFCQ30473312-27AE9231-DA92-4C23-BC02-B85472EECE6CQ30474548-054F1AE3-4891-431D-9C51-9CE116EC3E8DQ30513499-5115A05F-5ED0-42A6-BB55-40A0D951F850Q30544002-DD90AB4B-C9CB-42DB-B064-397593B55033Q30668528-BEEC2DC4-7719-4AFA-9F7F-467627D82B45Q31145422-79F35B75-85A5-411B-A970-D49CB17DC928Q31154408-75266398-30A3-4C8B-B6D5-64F3D242EEC3Q33487689-BA2AD206-B58D-40A3-AF0B-808FA2903090Q33646297-C61DAA47-DEFB-4E7D-B6F6-F31687471D7EQ33718013-90FB8BAD-C9F7-4D6F-A30C-CC0CA3EA956BQ34021496-180DF42C-9A1F-4EB4-BAA3-CCA3D5BD208AQ34026404-AA0AFF80-E37F-41A8-A43E-4C185842B2E0Q34048044-E68979CF-69A9-4C2A-BE59-244CB50ADC20Q34073655-8DF1FDBA-E0D4-49CD-A8FB-C190FF1E398AQ34534884-ED11D90C-6023-42D5-B66E-4393EA06149BQ34771629-C0319981-A4EC-4DDF-BBC1-884230296D29Q35043144-1478B2A9-393F-45C7-830D-62D7CA37CF1BQ35222316-AC80C5E5-1CB6-41CE-811A-5D7ECD32CF07Q36213405-9B100256-D71B-4527-9408-5C641476378CQ36684891-2523D145-0814-4206-AA82-E905C3444AE6Q36684924-57380770-7B64-42D0-AF4C-C71D01030361Q36718553-FC1E289D-FEF4-441D-BB6B-3BB8803DA010Q36959345-C0EFD129-C5E4-4F96-84FD-83F8619706F3Q37131206-A6FF6377-576B-433D-BAE1-6D1E8AE8C71DQ37581547-E52F7A61-067D-4231-9AAD-2C77DD92769AQ37795345-B8A6D15E-D038-4711-858D-5F45211AC189
P2860
Evaluating the consistency and specificity of neuroimaging data using meta-analysis
description
2008 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Evaluating the consistency and specificity of neuroimaging data using meta-analysis
@ast
Evaluating the consistency and specificity of neuroimaging data using meta-analysis
@en
type
label
Evaluating the consistency and specificity of neuroimaging data using meta-analysis
@ast
Evaluating the consistency and specificity of neuroimaging data using meta-analysis
@en
altLabel
Evaluating the consistency and specificity of neuroimaging data using meta-analysis.
@en
prefLabel
Evaluating the consistency and specificity of neuroimaging data using meta-analysis
@ast
Evaluating the consistency and specificity of neuroimaging data using meta-analysis
@en
P2860
P50
P1433
P1476
Evaluating the consistency and specificity of neuroimaging data using meta-analysis
@en
P2093
Jared X. Van Snellenberg
Martin A. Lindquist
P2860
P304
P356
10.1016/J.NEUROIMAGE.2008.10.061
P407
P433
1 Supplement
P577
2008-11-20T00:00:00Z