NeuroQuery: brain maps to answer all your neuroscience queries

A query on neuroscience, cognition, or brain pathologies

inhibition return

Terms related to the query

Term	Similarity	Weight in brain map	N	In query
auditory	0.018962067623588895	1.0	4009	In expansion
parietal	0.0020530456837690057	0.12014902202727215	10159	In expansion
visual	0.0026062756075554343	0.11326036793089245	10448	In expansion
auditory cortex	0.0038757299974944053	0.08926367462314583	846	In expansion
left	0.005861125202651656	0.08447784355283114	12782	In expansion
parahippocampal	0.0028835515129557563	0.07600551626015023	3512	In expansion
occipital	0.0013472073077287969	0.05338833626831174	6796	In expansion
precuneus	0.001461746872698333	0.04868594017559819	5186	In expansion
temporal	0.0012480389662172194	0.03753699657040473	11897	In expansion
frontal	0.0015714375872331768	0.030314153950412395	11471	In expansion
task	0.0031870614484993233	0.02972095607030221	12194	In expansion
visual word	0.005186266274299566	0.017644690237384637	448	In expansion
thalamus	0.00038440689681614414	0.017177024140544207	4891	In expansion
right	0.0028833711428996795	0.017077912543995055	13076	In expansion
superior	0.0012887024720151191	0.016610224045698407	9978	In expansion
premotor	0.001329048967961171	0.014478205579427783	3200	In expansion
fusiform	0.00030328982768627996	0.013729059906077968	4278	In expansion
insula	0.000234773363732547	0.013471530277175896	7050	In expansion
motor	0.0002867949475340794	0.012613659045525612	7928	In expansion
fusiform gyrus	0.0005382880196345103	0.012088721370616446	3445	In expansion
inferior	0.0009765557184261659	0.012058646412527966	10215	In expansion
ips	0.0009672119018488844	0.011017979853318986	1029	In expansion
inferior frontal gyrus	0.0008968296361577346	0.01019913697695958	5245	In expansion
cingulate	0.00023545416919499426	0.00942921287206084	9501	In expansion
occipito temporal	0.0018482351905492675	0.008604244087095727	1661	In expansion
motion	0.00023231619665113693	0.00835958920544254	9061	In expansion
working	0.0006573531944509769	0.007935550003020788	5201	In expansion
stg	0.0005570913122790685	0.00791502038629531	1459	In expansion
prefrontal	0.0002636975506088556	0.007187808467890525	10017	In expansion
lobule	0.0013265014351828116	0.005940953529070244	4588	In expansion
finger	0.00046221799444587196	0.005797143883665337	3165	In expansion
object	0.0005416209510335433	0.005747967926878086	4358	In expansion
intraparietal	0.000326752531009514	0.00572917330875641	1925	In expansion
spl	0.0014735278802056081	0.005438430980983051	974	In expansion
speech	0.00022544286525085904	0.004875924295492464	2192	In expansion
tensor	0.00044253151842046803	0.004674631880473713	1361	In expansion
ifg	0.0008124166530441313	0.00463879459516862	2361	In expansion
sound	0.000314691602525813	0.004503099724676386	2261	In expansion
word	0.00028119216025884644	0.0033352840888956643	6479	In expansion
brainstem	8.583028040421617e-05	0.003328101251519554	1502	In expansion
reactivity	0.00878319703511501	0.0	1299	In expansion
preparation	0.0034889598959320293	0.0	2288	In expansion
process	0.003615744409196281	0.0	13083	In expansion
mild traumatic brain injury	0.0035805789601211454	0.0	43	In expansion
navigation	0.014736676004615269	0.0	435	In expansion
orienting	0.01391629194918458	0.0	855	In expansion
tbi	0.013010341219925359	0.0	88	In expansion
top	0.006364242778252193	0.0	4425	In expansion
target	0.007043268788447227	0.0	6062	In expansion
virtual	0.006495966278164446	0.0	590	In expansion
writing	0.009315986913885814	0.0	955	In expansion
traumatic	0.009890161935910219	0.0	923	In expansion
traumatic brain injury	0.007890544866700298	0.0	347	In expansion
selective	0.0037339804064985896	0.0	3684	In expansion
selective attention	0.005056181819599818	0.0	886	In expansion
response	0.004617002778821518	0.0	12421	In expansion
response inhibition	0.011118256873177463	0.0	1092	In expansion
spatial memory	0.0037764677686221207	0.0	289	In expansion
spatial navigation	0.004876297762035142	0.0	183	In expansion
spatial attention	0.00993909308851303	0.0	810	In expansion
spatial	0.024187143260354947	0.0	11589	In expansion
digit	0.0033454556135391624	0.0	1374	In expansion
cortex	0.003517892174533254	0.0	13015	In expansion
cue	0.03939030886313706	0.0	3265	In expansion
cued	0.0080184041014081	0.0	1403	In expansion
cueing	0.007492417061854701	0.0	370	In expansion
cues	0.03508049714741899	0.0	3807	In expansion
brain	0.0033719157964753337	0.0	13395	In expansion
attention	0.03382175838040631	0.0	9595	In expansion
inhibition	0.006800716963740868	0.0	4517	In expansion
inhibition return	1.0	0.0	23	In query
injury	0.011188861842003631	0.0	2082	In expansion
location	0.005627447712037608	0.0	6271	In expansion
letter	0.06903874839820076	0.0	2538	In expansion
egocentric	0.005059734906445649	0.0	251	In expansion
gyrus	0.003797464122519988	0.0	11368	In expansion

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Letter processing interferes with inhibition of return: Evidence for cortical involvement
Neural correlates of spatial and non-spatial inhibition of return (IOR) in attentional orienting
From Behavioral Facilitation to Inhibition: The Neuronal Correlates of the Orienting and Reorienting of Auditory Attention
Auditory Orienting and Inhibition of Return in Mild Traumatic Brain Injury: A FMRI study
Evoked and Intrinsic Asymmetries during Auditory Attention: Implications for the Contralateral and Neglect Models of Functioning
Not All Attention Orienting is Created Equal: Recognition Memory is Enhanced When Attention Orienting Involves Distractor Suppression
Neural networks underlying endogenous and exogenous visual–spatial orienting
A dynamic causal modeling analysis of the effective connectivities underlying top-down letter processing
Letter processing automatically recruits a sensory–motor brain network
Neural Correlates of Top-Down Letter Processing
fMRI correlates of cortical specialization and generalization for letter processing
Made you look! Consciously perceived, irrelevant instructional cues can hijack the attentional network
The similarity structure of distributed neural responses reveals the multiple representations of letters
Decoding letter position in word reading
Selective response to letter categorization within the left fusiform gyrus
Adaptation of the human visual system to the statistics of letters and line configurations
Activation of Right Ventral Prefrontal Cortex Using a Predictive Cue during Visual Spatial Orienting of Attentional Processes: An fMRI Study
Brain activation patterns resulting from learning letter forms through active self-production and passive observation in young children
Repetition of letter strings leads to activation of and connectivity with word-related regions
Can skilled readers perform a second task in parallel? A functional connectivity MRI study
The effects of handwriting experience on functional brain development in pre-literate children
The neural circuitry underlying the executive control of auditory spatial attention
An fMRI Study of the Neural Systems Involved in Visually Cued Auditory Top-Down Spatial and Temporal Attention
Role of the superior parietal lobules in letter-identity processing within strings: FMRI evidence from skilled and dyslexicreaders
Neural correlates of primary and reflective consciousness of spatial orienting
Premotor activations in response to visually presented single letters depend on the hand used to write: a study on left-handers
Spatial Attention Evokes Similar Activation Patterns for Visual and Auditory Stimuli
Search for a Threatening Target Triggers Limbic Guidance of Spatial Attention
Parietal disruption impairs reflexive spatial attention within and between sensory modalities
Isolating event-related potential components associated with voluntary control of visuo-spatial attention

Terms related to the query

Predicted distribution of activations in the literature

Publications related to the query