The Benefit of Object Interactions Arises in the Lateral Occipital Cortex Independent of Attentional Modulation from the Intraparietal Sulcus: A Transcranial Magnetic Stimulation Study

It has often been proposed that there is a close link between representation of number and space. In the present work, single-pulse transcranial magnetic stimulation (TMS) was applied to the ventral intraparietal sulcus (VIPS) to determine effects on performance in motion detection and number comparison tasks. Participants' reaction times and thresholds for perception of laterally presented coherent motion in random dot kinematograms increased significantly when the contralateral VIPS was stimulated in contrast to the interhemispheric sulcus (Experiment 1) and to the ipsilateral VIPS (Experiment 2). In number comparison tasks, participants compared the magnitude of the laterally presented numbers 1–9 with the number 5. Again, reaction times significantly increased when TMS was applied to the contralateral VIPS in contrast to control sites. The finding that VIPS-directed TMS results in impaired efficiency in both motion perception and number comparison suggests that these processes share a common neural substrate.

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Tracing the timing of human analysis of motion and chromatic signals from occipital to temporo-parieto-occipital cortex: A transcranial magnetic stimulation study

Vision Research ◽

10.1016/s0042-6989(98)00025-x ◽

1998 ◽

Vol 38 (17) ◽

pp. 2619-2627 ◽

Cited By ~ 23

Author(s):

Sulekha Anand ◽

Jesse D. Olson ◽

John R. Hotson

Keyword(s):

Transcranial Magnetic Stimulation ◽

Magnetic Stimulation ◽

Occipital Cortex ◽

Analysis Of Motion

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Spatio-temporally specific transcranial magnetic stimulation to test the locus of perceptual decision making in the human brain

10.1101/304063 ◽

2018 ◽

Cited By ~ 1

Author(s):

Bruce Luber ◽

David C. Jangraw ◽

Greg Appelbaum ◽

Austin Harrison ◽

Susan Hilbig ◽

...

Keyword(s):

Decision Making ◽

Transcranial Magnetic Stimulation ◽

Magnetic Stimulation ◽

Performance Enhancement ◽

Occipital Cortex ◽

Stimulus Onset ◽

Perceptual Decision Making ◽

Perceptual Decision ◽

Slow Reaction Time ◽

Predictive Validation

AbstractPrevious research modeling EEG, fMRI and behavioral data has identified three spatially distributed brain networks that activate in temporal sequence, and are thought to enable perceptual decision-making during face-versus-car categorization. These studies have linked late activation (>300ms post stimulus onset) in the lateral occipital cortex (LOC) to object discrimination processes. We applied paired-pulse transcranial magnetic stimulation (ppTMS) to LOC at different temporal latencies with the specific prediction, based on these studies, that ppTMS beginning at 400ms after stimulus onset would slow reaction time (RT) performance. Thirteen healthy adults performed a two-alternative forced choice task selecting whether a car or face was present on each trial amidst visual noise pre-titrated to approximate 79% accuracy. ppTMS, with pulses separated by 50ms, was applied at one of five stimulus onset asynchronies: -200, 200, 400, 450, or 500ms, and a sixth no-stimulation condition. As predicted, TMS at 400ms resulted in significant slowing of RTs, providing causal evidence in support of LOC contribution to perceptual decision processing. In addition, TMS delivered at -200ms resulted in faster RTs, indicating early stimulation may result in performance enhancement. These findings build upon correlational EEG and fMRI observations and demonstrate the use of TMS in predictive validation of psychophysiological models.

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Transcranial magnetic stimulation entrains alpha oscillatory activity in occipital cortex

Scientific Reports ◽

10.1038/s41598-021-96849-9 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Yong-Jun Lin ◽

Lavanya Shukla ◽

Laura Dugué ◽

Antoni Valero-Cabré ◽

Marisa Carrasco

Keyword(s):

Transcranial Magnetic Stimulation ◽

Magnetic Stimulation ◽

Cortical Excitability ◽

Time Windows ◽

Oscillation Amplitude ◽

Occipital Cortex ◽

Oscillatory Activity ◽

Input Frequency ◽

Oscillation Phase ◽

Frequency Specificity

AbstractParieto-occipital alpha rhythms (8–12 Hz) underlie cortical excitability and influence visual performance. Whether the synchrony of intrinsic alpha rhythms in the occipital cortex can be entrained by transcranial magnetic stimulation (TMS) is an open question. We applied 4-pulse, 10-Hz rhythmic TMS to entrain intrinsic alpha oscillators targeting right V1/V2, and tested four predictions with concurrent electroencephalogram (EEG): (1) progressive enhancement of entrainment across time windows, (2) output frequency specificity, (3) dependence on the intrinsic oscillation phase, and (4) input frequency specificity to individual alpha frequency (IAF) in the neural signatures. Two control conditions with an equal number of pulses and duration were arrhythmic-active and rhythmic-sham stimulation. The results confirmed the first three predictions. Rhythmic TMS bursts significantly entrained local neural activity. Near the stimulation site, evoked oscillation amplitude and inter-trial phase coherence (ITPC) were increased for 2 and 3 cycles, respectively, after the last TMS pulse. Critically, ITPC following entrainment positively correlated with IAF rather than with the degree of similarity between IAF and the input frequency (10 Hz). Thus, we entrained alpha-band activity in occipital cortex for ~ 3 cycles (~ 300 ms), and IAF predicts the strength of entrained occipital alpha phase synchrony indexed by ITPC.

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Excitability of Visual V1-V2 and Motor Cortices To Single Transcranial Magnetic Stimuli in Migraine: A Reappraisal Using A Figure-Of-Eight Coil

Cephalalgia ◽

10.1046/j.1468-2982.2003.00475.x ◽

2003 ◽

Vol 23 (4) ◽

pp. 264-270 ◽

Cited By ~ 66

Author(s):

V Bohotin ◽

A Fumai ◽

M Vandenheede ◽

C Bohotin ◽

J Schoenen

Keyword(s):

Visual Cortex ◽

Transcranial Magnetic Stimulation ◽

Healthy Volunteers ◽

Migraine Attack ◽

Magnetic Stimulation ◽

Occipital Cortex ◽

Motor Threshold ◽

Phosphene Threshold

We used transcranial magnetic stimulation (TMS) with a figure-of-eight coil to excite motor and visual V1-V2 cortices in patients suffering from migraine without (MO) ( n = 24) or with aura (MA) ( n = 13) and in healthy volunteers (HV) ( n = 33). Patients who had a migraine attack within 3 days before or after the recordings were excluded. All females were recorded at mid-cycle. Single TMS pulses over the occipital cortex elicited phosphenes in 64% of HV, 63% of MO and 69% of MA patients. Compared with HV, the phosphene threshold was significantly increased in MO ( P = 0.001) and in MA ( P = 0.007), but there was no difference between the two groups of migraineurs. The motor threshold tended to be higher in both migraine groups than in HV, but the differences were not significant. In conclusion, this study shows that two-thirds (64.86%) of patients affected by either migraine type present an increased phosphene threshold in the interictal period, which suggests that their visual cortex is hypoexcitable.

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