Voice versus non-vocal sounds.
Voices, including speech such as isolated words, connected speech in several languages and non-speech such as laughs, sighs and coughs versus non-vocal sounds including animal cries, mechanical sounds.
WOEXP: 141.
P. Belin; Robert J. Zatorre; P. Lafaille; P. Ahad; B. Pike. Voice-selective areas in human auditory cortex.
Nature 403(6767):309-312, 2000.
PMID: 10659849.
DOI: 10.1038/35002078.
WOBIB: 42.
Perception,Audition - Vocal
WOEXT: 168.
| Modality: | fMRI |
| Measured variable: | BOLD |
| Tracer: | |
| Scanner: | Siemens, Vision 1.5T |
| Number of subjects: | 14 |
Asymmetry: 0.61230 (left: -1, right: +1)
| x |
y |
z |
Lobar anatomy |
Functional area |
WOROI |
Value |
| 58 |
6 |
-10 |
Anterior superior temporal sulcus |
|
|
|
| 60 |
-1 |
-4 |
Anterior superior temporal sulcus |
|
|
|
| 63 |
-13 |
-1 |
Middle superior temporal sulcus |
|
|
|
| 52 |
-19 |
-1 |
Middle temporal gyrus |
|
|
|
| 56 |
-30 |
6 |
Posterior superior temporal sulcus |
|
|
|
| 46 |
-44 |
6 |
Posterior superior temporal sulcus |
|
|
|
| 4 |
-52 |
30 |
Precuneus |
|
|
|
| -60 |
-2 |
-9 |
Anterior middle temporal gyrus |
|
|
|
| -62 |
-14 |
0 |
Middle superior temporal sulcus |
|
|
|
| -40 |
-37 |
13 |
Planum temporale |
|
|
|
| -62 |
-40 |
10 |
Posterior superior temporal sulcus |
|
|
|
|
[ PNG | VRML (90Kb) ]
|
Related - positive correlated volumes
+1: 1.00000
Voice versus non-vocal sounds.
Voices, including speech such as isolated words, connected speech in several languages and non-speech such as laughs, sighs and coughs versus non-vocal sounds including animal cries, mechanical sounds.
WOEXP: 141.
P. Belin; Robert J. Zatorre; P. Lafaille; P. Ahad; B. Pike. Voice-selective areas in human auditory cortex.
Nature 403(6767):309-312, 2000.
PMID: 10659849.
DOI: 10.1038/35002078.
WOBIB: 42.
+2: 0.89832
Vocal stimuli versus bells, human non-vocal sounds, enveloped white noise and scrampled voices.
Voices, including speech such as isolated words, connected speech in several languages and non-speech such as laughs, sighs and coughs versus non-vocal sounds including various bells, human non-vocal sounds (e.g., finger snaps and hand claps), white noise modulated with the amplitude envelope of vocal sounds, and scrampled voices.
WOEXP: 142.
P. Belin; Robert J. Zatorre; P. Lafaille; P. Ahad; B. Pike. Voice-selective areas in human auditory cortex.
Nature 403(6767):309-312, 2000.
PMID: 10659849.
DOI: 10.1038/35002078.
WOBIB: 42.
+3: 0.85683
Frequency-filtered vocal versus non-vocal.
Vocal versus non-vocal sounds. Sounds were either in their original form or frequency-filtered with a band-pass filter.
WOEXP: 143.
P. Belin; Robert J. Zatorre; P. Lafaille; P. Ahad; B. Pike. Voice-selective areas in human auditory cortex.
Nature 403(6767):309-312, 2000.
PMID: 10659849.
DOI: 10.1038/35002078.
WOBIB: 42.
+4: 0.78197
Language perception during free viewing.
Subjective experience of language perception during free viewing and hearing of a James Bond movie.
WOEXP: 383.
Andreas Bartels; Semir Zeki. Functional brain mapping during free viewing of natural scenes.
Human Brain Mapping 21(2):75-85, 2004.
PMID: 14755595.
DOI: 10.1002/hbm.10153.
WOBIB: 123.
+5: 0.67937
Listening to voices.
Listening to familiar and unfamiliar voices with right index finger button presses for indication of interrupting checkerboard patterns versus viewing familiar and unfamiliar faces also with button pressing.
WOEXP: 199.
N. J. Shah; J. C. Marshall; O. Zafiris; A. Schwab; Karl Zilles; H. J. Markowitsch; G. R. Fink. The neural correlates of person familiarity. A functional magnetic resonance imaging study with clinical implications.
Brain 124(Pt 4):804-15, 2001.
PMID: 11287379.
WOBIB: 64.
+6: 0.66163
Auditory change.
Change between two sounds, running water and croaking frogs versus change in visual or tactile stimuli.
WOEXP: 454.
J. Downar; A. P. Crawley; D. J. Mikulis; K. D. Davis. A multimodal cortical network for the detection of changes in the sensory environment.
Nature Neuroscience 3(3):277-283, 2000.
PMID: 10700261.
DOI: 10.1038/72991.
FMRIDCID: .
WOBIB: 148.
+7: 0.65256
Spatial neglect.
Lesions in patients with spatial neglect after infarct of hemorrhage versus infarct and hemorrhage patients without spatial neglect.
WOEXP: 410.
Hans-Otto Karnath; Monika Fruhmann Berger; Wilhelm Kuker; Chris Rorden. The Anatomy of Spatial Neglect based on Voxelwise Statistical Analysis: A Study of 140 Patients.
Cerebral Cortex 14(10):1164-1172, 2004.
PMID: 15142954.
DOI: 10.1093/cercor/bhh076.
FMRIDCID: .
WOBIB: 133.
+8: 0.63728
Nonautobiographical episodic memory retrieval.
Listening to sentences that contained
episodic information from an third-person autobiography versus
eyes closed.
WOEXP: 207.
G. R. Fink; H. J. Markowitsch; M. Reinkemeier; T. Bruckbauer; J. Kessler; W. D. Heiss. Cerebral representation of one's own past: neural networks involved in
autobiographical memory.
Journal of Neuroscience 16(13):4275-82, 1996.
PMID: 8753888.
WOBIB: 68.
+9: 0.62185
Divided attention versus focused attention.
Either attend to both ears or attend to left or right ear and press a button when the target stimulus appeared.
WOEXP: 36.
K. Hugdahl; Ian Law; S. Kyllingsbaek; K. Bronnick; Anders Gade; Olaf B. Paulson. Effects of attention on dichotic listening: an 15O-PET study.
Human Brain Mapping 10(2):87-97, 2000.
PMID: 10864233.
WOBIB: 14.
+10: 0.55734
Spatial neglect.
Patients with spatial neglect and right brain damage from infarct or hemorrhage versus right brain damage patients without spatial neglect.
WOEXP: 185.
Hans-Otto Karnath; S. Ferber; M. Himmelbach. Spatial awareness is a function of the temporal not the posterior parietal
lobe.
Nature 411(6840):950-3, 2001.
PMID: 11418859.
DOI: 10.1038/35082075.
WOBIB: 59.
+11: 0.54891
Chords.
Chords simulation: standard sequence versus deviant sequence.
WOEXP: 22.
M. Tervaniemi; S. V. Medvedev; K. Alho; S. V. Pakhomov; M. S. Roudas; T. L. Van Zuijen; R. Naatanen. Lateralized automatic auditory processing of phonetic versus musical information: a PET study.
Human Brain Mapping 10(2):74-79, 2000.
PMID: 10864231.
WOBIB: 9.
+12: 0.52369
Silent reading of proper words versus pseudowords.
Silent reading of visually presented proper words versus silent reading of pseudowords.
WOEXP: 398.
Andrea Mechelli; Karl J. Friston; Cathy J. Price. The effects of presentation rate during word and pseudoword reading: a comparison of PET and fMRI.
Journal of Cognitive Neuroscience 12 Suppl 2():145-156, 2000.
PMID: 11506654.
DOI: 10.1162/089892900564000.
FMRIDCID: 2-2000-11189.
WOBIB: 129.
+13: 0.49078
Focused attention to left ear versus focused attention to right ear.
Attend to sound and press a button when the target stimulus appeared.
WOEXP: 43.
K. Hugdahl; Ian Law; S. Kyllingsbaek; K. Bronnick; Anders Gade; Olaf B. Paulson. Effects of attention on dichotic listening: an 15O-PET study.
Human Brain Mapping 10(2):87-97, 2000.
PMID: 10864233.
WOBIB: 14.
+14: 0.48487
Attention to consonant-vowels versus attention to musical instruments.
Attend to sound and press a button when the target stimulus appeared.
WOEXP: 41.
K. Hugdahl; Ian Law; S. Kyllingsbaek; K. Bronnick; Anders Gade; Olaf B. Paulson. Effects of attention on dichotic listening: an 15O-PET study.
Human Brain Mapping 10(2):87-97, 2000.
PMID: 10864233.
WOBIB: 14.
+15: 0.42672
Color matching.
Color matching with colored random polygons presented serially in pairs on a screen with response by left or right mouse button press versus color matching.
WOEXP: 254.
Claus Bundesen; Axel Larsen; Soren Kyllingsbaek; Olaf B. Paulson; Ian Law. Attentional effects in the visual pathways: a whole-brain PET study.
Experimental Brain Research 147(3):394-406, 2002.
PMID: 12428147.
DOI: 10.1007/s00221-002-1243-1.
WOBIB: 81.
+16: 0.41797
Deactivations in romantic love.
Viewing of colored pictures of three friends of the same sex as their loved partner versus viewing pictures of the faces of boy- or girlfriend (loved once).
WOEXP: 177.
Andreas Bartels; Semir Zeki. The neural basis of romantic love.
NeuroReport 11(17):3829-3834, 2000.
PMID: 11117499.
WOBIB: 54.
+17: 0.40859
Multimodal sensory change.
Change between stimuli that are either visual, auditory or tactile.
WOEXP: 456.
J. Downar; A. P. Crawley; D. J. Mikulis; K. D. Davis. A multimodal cortical network for the detection of changes in the sensory environment.
Nature Neuroscience 3(3):277-283, 2000.
PMID: 10700261.
DOI: 10.1038/72991.
FMRIDCID: .
WOBIB: 148.
+18: 0.39658
Decreases in rapid auditory processing.
Linear decrease as a function of compression/presentation speed of auditorily presented sentences that were to be determine semantically true with button press.
WOEXP: 523.
Russell A. Poldrack; Elise Temple; Athanassios Protopapas; Srikantan Nagarajan; Paula Tallal; Michael Merzenich; John D. E. Gabrieli. Relations Between the Neural Bases of Dynamic Auditory Processing and Phonological Processing: Evidence from fMRI.
Journal of Cognitive Neuroscience 13(5):687-697, 2001.
PMID: 11506664.
FMRIDCID: 2-2001-111KR.
WOBIB: 171.
+19: 0.39258
Consonant-vowels versus simple tones.
Detection of target consonant-vowel by pressing a button during dichotic presentation with consonant-vowels and musical instruments.
WOEXP: 87.
K. Hugdahl; K. Bronnick; S. Kyllingsbaek; I. Law; Anders Gade; Olaf B. Paulson. Brain activation during dichotic presentations of consonant-vowel and
musical instrument stimuli: a 15O-PET study.
Neuropsychologia 37(4):431-40, 1999.
PMID: 10215090.
WOBIB: 26.
+20: 0.37782
Activation in sadness film viewing versus neutral film viewing.
Passive viewing of 2.5 minute emotional film clips.
WOEXP: 282.
S. Aalto; P. Naatanen; E. Wallius; L. Metsahonkala; H. Stenman; P. M. Niem; H. Karlsson. Neuroanatomical substrata of amusement and sadness: a PET activation study
using film stimuli.
NeuroReport 13(1):67-73, 2002.
PMID: 11924897.
WOBIB: 88.
+21: 0.36386
Focused episodic memory versus semantic memory.
Recalling a personal event from the past and describing the event aloud versus recalling and speaking aloud words that start with a specific letter.
WOEXP: 415.
Nancy C. Andreasen; Daniel S. O'Leary; Ted Cizadlo; Stephan Arndt; Karim Rezai; G. Leonard Watkins; Laura L. Ponto; Richard D. Hichwa. Remembering the past: two facets of episodic memory explored with positron emission tomography.
American Journal of Psychiatry 152(11):1576-1585, 1995.
PMID: 7485619.
FMRIDCID: .
BrainMap: 219.
WOBIB: 134.
+22: 0.35573
Unpredictable tones versus predictable.
Unpredictable tones with random intervals independent of self-paced button presses versus tones dependent on button press.
WOEXP: 258.
S. J. Blakemore; Geraint Rees; C. D. Frith. How do we predict the consequences of our actions? A functional imaging
study.
Neuropsychologia 36(6):521-9, 1998.
PMID: 9705062.
WOBIB: 82.
+23: 0.33226
Musical instruments versus simple tones.
Detection of target musical instrument by pressing a button during dichotic presentation with consonant-vowels and musical instruments.
WOEXP: 88.
K. Hugdahl; K. Bronnick; S. Kyllingsbaek; I. Law; Anders Gade; Olaf B. Paulson. Brain activation during dichotic presentations of consonant-vowel and
musical instrument stimuli: a 15O-PET study.
Neuropsychologia 37(4):431-40, 1999.
PMID: 10215090.
WOBIB: 26.
+24: 0.31882
Distracted heat pain on right hand.
46 to 49 degrees Celsius hot stimuli on the thenar eminence of the right hand using a peltier thermode distracted by a visual motion task with silent counting of the number of partial coherent visual motion blocks versus distract 40 degrees warm stimuli.
WOEXP: 187.
Jonathan C. W. Brooks; Turo J. Nurmikko; William E. Bimson; Krish D. Singh; Neil Roberts. fMRI of thermal pain: effects of stimulus laterality and attention.
NeuroImage 15(2):293-301, 2002.
PMID: 11798266.
DOI: 10.1006/nimg.2001.0974.
WOBIB: 60.
+25: 0.31612
Audio-visual speech low incongruent response.
Heard speech and lip movements with sub-additive response to incongruent signals.
WOEXP: 474.
Gemma A. Calvert; Ruth Campbell; Michael J. Brammer. Evidence from functional magnetic resonance imaging of crossmodal binding in the human heteromodal cortex.
Current Biology 10(11):649-657, 2000.
PMID: 10837246.
FMRIDCID: .
WOBIB: 154.
Antirelated - negatively correlated volumes
-1: -0.06854
Memory retention.
Memory retention of newly encoded visually presented barcodes in 4, 6 or 8 seconds in a delayed non-matching-to-sample task.
WOEXP: 432.
Greig I. de Zubicaray; Katie McMahon; Stephen J. Wilson; Santhi Muthiah. Brain activity during the encoding, retention, and retrieval of stimulus representations.
Learning & Memory 8(5):243-251, 2001.
PMID: 11584070.
DOI: 10.1101/lm.40301.
FMRIDCID: .
WOBIB: 141.
-2: -0.06669
Memory encoding.
Memory encoding of visually presented barcodes in a delayed non-matching-to-sample task.
WOEXP: 431.
Greig I. de Zubicaray; Katie McMahon; Stephen J. Wilson; Santhi Muthiah. Brain activity during the encoding, retention, and retrieval of stimulus representations.
Learning & Memory 8(5):243-251, 2001.
PMID: 11584070.
DOI: 10.1101/lm.40301.
FMRIDCID: .
WOBIB: 141.
-3: -0.06189
Semantic versus case.
Decision whether a visually presented word is abstract or concrete with right hand response button press versus decision based on the case of the letters in the word.
WOEXP: 550.
Russell A. Poldrack; Anthony D. Wagner; Matthew W. Prull; John E. Desmond; Gary H. Glover; John D. E. Gabrieli. Functional Specialization for Sematic and Phonological Processing in the Left Inferior Prefrontal Cortex.
NeuroImage 10(1):15-35, 1999.
PMID: 10385578.
DOI: 10.10061/nimg.1999.0441.
FMRIDCID: .
WOBIB: 178.
-4: -0.06016
Visuospatial 2-back, Boston site.
Viewing of dots in one of four displayed boxes with button pressing for indicating where the dot occured two trials back versus pressing buttons in zero-back.
WOEXP: 352.
B. J. Casey; Jonathan D. Cohen; K. O'Craven; Richard J. Davidson; W. Irwin; C. A. Nelson; D. C. Noll; X. Hu; M. J. Lowe; B. R. Rosen; C. L. Truwitt; P. A. Turski. Reproducibility of fMRI results across four institutions using a spatial working memory task.
NeuroImage 8(3):249-261, 1998.
PMID: 9758739.
FMRIDCID: .
WOBIB: 116.
-5: -0.05919
Attention to moving dots by detecting changes versus no attention to moving dots.
250 white dots moved radially from the fixation point in the middle of the screen in random directions towards the border of the screen.
WOEXP: 77.
Christian Büchel; Oliver Josephs; Geraint Rees; R. Turner; C. D. Frith; Karl J. Friston. The functional anatomy of attention to visual motion. A functional MRI
study.
Brain 121 ( Pt 7):1281-94, 1998.
PMID: 9679780.
WOBIB: 24.