force
Terms related to the query
Term Similarity Weight in brain map N In query
motor
0.07451534994591369
1.0
7928 In expansion
cerebellum
0.04772350375981415
0.7605322575096287
5578 In expansion
somatosensory
0.006966082796194454
0.06619720697221346
2370 In expansion
m1
0.008270538584911925
0.045813914182070876
722 In expansion
hand
0.005263071994107302
0.03663085915634671
7603 In expansion
thalamus
0.0025308570583366325
0.03450714551913393
4891 In expansion
finger
0.007169081270726591
0.027435659079098472
3165 In expansion
premotor
0.008238675335404077
0.027385193149211742
3200 In expansion
sma
0.002866546119199292
0.021333502539897044
2429 In expansion
basal ganglia
0.012119909402751587
0.01968415805285632
2555 In expansion
putamen
0.003823563555207136
0.01907957836476668
3208 In expansion
movement
0.005228732471978382
0.018051846688158523
8260 In expansion
ganglia
0.011787203655323545
0.017414697542827356
2581 In expansion
object
0.005317612360858573
0.017219487407409882
4358 In expansion
task
0.0054520205538307895
0.015513667759181005
12194 In expansion
brainstem
0.0012860895514733672
0.015216398456308065
1502 In expansion
motor cortex
0.00657816244242276
0.010571226176370605
1500 In expansion
visual
0.0007361222117494709
0.009760952832655082
10448 In expansion
lobule
0.006839404123131766
0.009346550569935046
4588 In expansion
left
0.0018638814889597112
0.00819718579595952
12782 In expansion
parietal
0.0004404233222856597
0.007864599270483245
10159 In expansion
stimulation
0.003721707061108841
0.006100712946098692
4565 In expansion
right
0.0029896603655658912
0.005403071997013356
13076 In expansion
primary motor cortex
0.005336373922358409
0.005365648782467767
1190 In expansion
basal
0.009645979845901294
0.004518146073823605
3007 In expansion
sensorimotor
0.0017943339090126683
0.004393314432875731
2384 In expansion
tactile
0.004567094974481287
0.004163539785723463
784 In expansion
contralateral
0.003368680315512494
0.00412567591982714
1779 In expansion
motion
0.00035061967963204453
0.003849695675307703
9061 In expansion
working
0.0009911225631398903
0.0036508188228517703
5201 In expansion
inferior
0.0007580924991367775
0.0028563300973189166
10215 In expansion
s1
0.0012863040664971121
0.002782360383007787
1058 In expansion
superior
0.0007035632760684981
0.002767009527168138
9978 In expansion
auditory
0.0001712447342331578
0.002755600138658631
4009 In expansion
ipsilateral
0.003290503885580624
0.0026903248247953436
1095 In expansion
occipital
0.00020925849972096283
0.00253034493384861
6796 In expansion
striatum
0.0005756180397600647
0.0023047723442857627
3024 In expansion
caudate
0.000501166671701717
0.0021083562514828355
3615 In expansion
motor imagery
0.004915041447637169
0.0020276468221533013
339 In expansion
primary
0.0040004299479761045
0.0017290055944917978
7248 In expansion
tapping
0.004241830502794209
0.00023223930131108846
754 In expansion
performance
0.007182887038299389
0.0
9105 In expansion
motor system
0.0056480555646775555
0.0
730 In expansion
motor task
0.005150668639671412
0.0
596 In expansion
neurofeedback
0.004096528540273395
0.0
100 In expansion
negative feedback
0.00549258381157052
0.0
353 In expansion
motor learning
0.005797436907449396
0.0
401 In expansion
motor area
0.004088744559605873
0.0
1851 In expansion
motor control
0.006700315698564642
0.0
1224 In expansion
sequence
0.004607835594398954
0.0
10577 In expansion
cortex
0.009190182944892034
0.0
13015 In expansion
crus
0.00613124461887503
0.0
352 In expansion
area
0.004221346647261613
0.0
12598 In expansion
activity
0.014479883726685324
0.0
11733 In expansion
aging
0.0038977780350069216
0.0
1310 In expansion
load
0.0039154543472079
0.0
2008 In expansion
execution
0.0038090101744455373
0.0
2145 In expansion
feedback
0.04386511652816615
0.0
3189 In expansion
feedback processing
0.006326843977396679
0.0
159 In expansion
force
1.0
0.0
652 In query
Predicted distribution of activations in the literature
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Publications related to the query
Force level independent representations of predictive grip force–load force coupling: A PET activation study
Specific cerebellar regions are related to force amplitude and rate of force development
Brain activity is similar during precision and power gripping with light force: An fMRI study
Aging effects on the control of grip force magnitude: An fMRI study
Predicting Grip Force Amplitude Involves Circuits in the Anterior Basal Ganglia
Dissociation of brain areas associated with force production and stabilization during manipulation of unstable objects
Segregated and overlapping neural circuits exist for the production of static and dynamic precision grip force
Functional Neuroanatomy of Mirroring during a Unimanual Force Generation Task
fMRI effects of task demand and feedback accuracy on grip force tracking
Negative emotions facilitate isometric force through activation of prefrontal cortex and periaqueductal gray
Maintaining Force Control Despite Changes in Emotional Context Engages Dorsomedial Prefrontal and Premotor Cortex
Brain areas associated with force steadiness and intensity during isometric ankle dorsiflexion in men and women
Spatiotemporal tuning of brain activity and force performance
Why I tense up when you watch me: Inferior parietal cortex mediates an audience’s influence on motor performance
Age-dependent changes in the neural correlates of force modulation: An fMRI study
Aversive stimuli exacerbate defensive motor behaviour in motor conversion disorder
A novel MR-compatible device for providing forces to the human finger during functional neuroimaging studies
Cerebellar lobules and dentate nuclei mirror cortical force‐related‐BOLD responses: Beyond all (linear) expectations
The relationship between brain activity and peak grip force is modulated by corticospinal system integrity after subcortical stroke
Specific brain activation patterns associated with two neuromuscular electrical stimulation protocols
Effect of visual feedback on brain activation during motor tasks: An fMRI study
Functional Brain Activity Relates to 0–3 and 3–8 Hz Force Oscillations in Essential Tremor
An fMRI Study of Local Synchronization in Different Subfrequency Bands during the Continuous Feedback of Finger Force
Self-paced frequency of a simple motor task and brain activation
Novel approach for understanding the neural mechanisms of auditory-motor control: Pitch regulation by finger force
Reduced cortical activity during maximal bilateral contractions of the index finger
Modulation of somatosensory processing by action
Mechanisms underlying muscle fatigue differ between multiple sclerosis patients and controls: A combined electrophysiological and neuroimaging study
Human-Robot Interaction: Does Robotic Guidance Force Affect Gait-Related Brain Dynamics during Robot-Assisted Treadmill Walking?
Distinct Functional and Macrostructural Brain Changes in Parkinson’s Disease and Multiple System Atrophy