stroop
Terms related to the query
Term Similarity Weight in brain map N In query
task
0.009198717829274382
1.0
12194 In expansion
cingulate
0.0016203173140120605
0.7564313023244658
9501 In expansion
word
0.0038370117382416358
0.5305460865051921
6479 In expansion
prefrontal
0.001575374726137364
0.5005813188070659
10017 In expansion
acc
0.0007385871915012677
0.11786000482123944
3579 In expansion
anterior
0.0008910791470439208
0.11514568885990334
11200 In expansion
inferior
0.0006077279005027199
0.08748046292871967
10215 In expansion
insula
0.00012398220018627285
0.08293308337493363
7050 In expansion
parietal
5.888891514876444e-05
0.040174968493001284
10159 In expansion
pain
0.00028356338724014167
0.03755234424972957
1670 In expansion
dlpfc
0.0001595538292998399
0.029221245606243396
2726 In expansion
inferior frontal gyrus
0.00018940320844457306
0.02510967947255442
5245 In expansion
dmn
7.666007377915192e-05
0.02493554821861105
1351 In expansion
white matter
8.86986027798354e-05
0.02325776631810409
4236 In expansion
matter
6.550465342113387e-05
0.01532781113557731
6324 In expansion
motor
2.401351327401102e-05
0.012311916441893563
7928 In expansion
white
5.682214214393037e-05
0.011403123696756425
6774 In expansion
frontal
4.501058721384078e-05
0.01012193066328708
11471 In expansion
anterior cingulate cortex
0.0007512765637254422
0.010031834121182968
4228 In expansion
si
0.0013084008056922886
0.009613157165407626
428 In expansion
reho
0.00016503232601552847
0.008464884808795743
260 In expansion
thalamus
1.1360939989456674e-05
0.005917951274109198
4891 In expansion
finger
3.2799106491979245e-05
0.004795452657014702
3165 In expansion
precuneus
7.929198468218517e-06
0.0030786551171060176
5186 In expansion
amygdala
5.950668533393727e-06
0.0029176436605134128
4540 In expansion
precentral
0.00019466600389663317
0.002808172364988786
3830 In expansion
mpfc
2.6110687044869383e-05
0.0026572759018540087
1738 In expansion
left
1.569188287909035e-05
0.0026365574724465184
12782 In expansion
right
3.811217305106929e-05
0.002631469334765854
13076 In expansion
occipital
5.52012345735998e-06
0.0025501229061058077
6796 In expansion
brainstem
5.098679663593248e-06
0.0023046983479663636
1502 In expansion
default
9.547824836162627e-06
0.0020745156290782646
3687 In expansion
fa
6.404147084517739e-06
0.002017226904182595
1796 In expansion
somatosensory
5.249264237344849e-06
0.001905746670345065
2370 In expansion
temporal
5.2590246421134755e-06
0.001843898221943398
11897 In expansion
cerebellum
2.9633858079373586e-06
0.0018042188487876604
5578 In expansion
motion
4.215524258751102e-06
0.0017683059345229917
9061 In expansion
default mode
1.3065923065198937e-05
0.0017492397263727743
2555 In expansion
working
1.2130785324688155e-05
0.0017071337016947208
5201 In expansion
putamen
8.70740654677151e-06
0.0016599881306151643
3208 In expansion
igd
0.0012103948298432664
0.001594004261251805
19 In expansion
performance
0.0031504016880473003
0.0
9105 In expansion
proactive
0.0012823650227387733
0.0
232 In expansion
proactive control
0.0011254935653248978
0.0
71 In expansion
naming
0.001148871939213283
0.0
1198 In expansion
marijuana
0.0039140554682757225
0.0
257 In expansion
negative priming
0.0016610606867631852
0.0
46 In expansion
numerical
0.0016144880656655041
0.0
720 In expansion
task relevant
0.002356987051975844
0.0
1116 In expansion
substance use disorder
0.0012348717648299184
0.0
328 In expansion
substance
0.0019351384100763794
0.0
2522 In expansion
stroop task
0.043522216177537106
0.0
672 In expansion
self control
0.001291139517338148
0.0
299 In expansion
red
0.0016286539224932902
0.0
3242 In expansion
response
0.0012591333205196932
0.0
12421 In expansion
stimuli
0.0012555757881572134
0.0
10529 In expansion
stroop
1.0
0.0
1122 In query
color
0.013728559918876315
0.0
2779 In expansion
cognitive
0.0018359387819133373
0.0
11288 In expansion
conflict resolution
0.001294152693388891
0.0
316 In expansion
conflict
0.0030398459190074225
0.0
4916 In expansion
condition
0.0010918349054618638
0.0
11648 In expansion
control
0.0024613986862301036
0.0
12606 In expansion
counting
0.0019842115522719734
0.0
659 In expansion
addiction
0.0033303591661721856
0.0
798 In expansion
atd
0.001739988139087876
0.0
25 In expansion
attentional bias
0.0017166951027301868
0.0
252 In expansion
attentional control
0.005211111235842579
0.0
866 In expansion
incongruent
0.0074325713668681685
0.0
1032 In expansion
interference
0.005031081204757657
0.0
1980 In expansion
inhibitory control
0.00346995630777603
0.0
997 In expansion
effect
0.001459593570311896
0.0
13072 In expansion
green
0.0012552551353508076
0.0
2141 In expansion
grapheme
0.0012972579841806129
0.0
240 In expansion
feature
0.0011346238964738535
0.0
6156 In expansion
Predicted distribution of activations in the literature
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Publications related to the query
The Stroop Effect in Kana and Kanji Scripts in Native Japanese Speakers: An fMRI Study
An fMRI study of the functional mechanisms of Stroop/reverse-Stroop effects
Regional gray and white matter volume associated with Stroop interference: Evidence from voxel-based morphometry
Degree centrality and fractional amplitude of low-frequency oscillations associated with Stroop interference
Predicting Stroop Effect from Spontaneous Neuronal Activity: A Study of Regional Homogeneity
WHITE MATTER INTEGRITY PREDICTS STROOP PERFORMANCE IN PATIENTS WITH GERIATRIC DEPRESSION
Stroop interference, hemodynamic response and aging: An event-related fMRI study
Functional connectivity during Stroop task performance
Grapheme-color synesthesia interferes with color perception in a standard Stroop task
Attention enhances the neural processing of relevant features and suppresses the processing of irrelevant features in humans: An fMRI study of the Stroop task
Suppressing Emotions Impairs Subsequent Stroop Performance and Reduces Prefrontal Brain Activation
Meditation training increases brain efficiency in an attention task
Neural correlates of the individual emotional Stroop in borderline personality disorder
The Effects of Methylphenidate on Cognitive Control in Active Methamphetamine Dependence Using Functional Magnetic Resonance Imaging
Adaptation to recent conflict in the classical color-word Stroop-task mainly involves facilitation of processing of task-relevant information
Cortical Inefficiency in Patients with Unipolar Depression: An Event-Related fMRI Study with the Stroop Task
Modulations of the executive control network by stimulus onset asynchrony in a Stroop task
Investigating the Neural Correlates of Emotion–Cognition Interaction Using an Affective Stroop Task
ACC Neuro-over-Connectivity Is Associated with Mathematically Modeled Additional Encoding Operations of Schizophrenia Stroop-Task Performance
Nicotine withdrawal modulates frontal brain function during an affective Stroop task
Calibrated fMRI during a cognitive Stroop task reveals reduced metabolic response with increasing age
Pre-Treatment Brain Activation During Stroop Task is Associated with Outcomes in Cocaine Dependent Patients
Acute tryptophan depletion improves performance and modulates the BOLD response during a Stroop task in healthy females
Word Wins Over Face: Emotional Stroop Effect Activates the Frontal Cortical Network
Separating semantic conflict and response conflict in the Stroop task: A functional MRI study
Comparing the Neural Correlates of Conscious and Unconscious Conflict Control in a Masked Stroop Priming Task
Brain Activity toward Gaming-Related Cues in Internet Gaming Disorder during an Addiction Stroop Task
Age-related reorganization of functional networks for successful conflict resolution: A combined functional and structural MRI study
Cardiorespiratory Fitness and Attentional Control in the Aging Brain
Sex Differences in Itch Perception and Modulation by Distraction – an fMRI Pilot Study in Healthy Volunteers