Your search keyword '"RS: FPN CN 4"' showing total 6 results

1. The modulatory role of pre-SMA in speed-accuracy tradeoff

Author

Yusuf Ozgur Cakmak, Hale Yapici Eser, Alexander T. Sack, Fuat Balcı, Dilara Berkay, Cognition, and RS: FPN CN 4

Subjects

Male, STIMULATION, NEURAL BASIS, medicine.medical_treatment, Motion Perception, Task (project management), Behavioral Neuroscience, 0302 clinical medicine, Theta burst stimulation, Neural Pathways, DIFFUSION-MODEL, media_common, Drift diffusion model, SUBTHALAMIC NUCLEUS, 05 social sciences, Motor Cortex, Speed accuracy tradeoff, SMA, Transcranial Magnetic Stimulation, PERCEPTUAL DECISION-MAKING, Female, Psychology, RESPONSE-INHIBITION, Adult, Cognitive Neuroscience, media_common.quotation_subject, Models, Neurological, Posterior parietal cortex, Experimental and Cognitive Psychology, Sensory system, Motor Activity, 050105 experimental psychology, 03 medical and health sciences, Young Adult, PARIETAL CORTEX, Neuroimaging, Control theory, Perception, medicine, Journal Article, Humans, 0501 psychology and cognitive sciences, REACTION-TIME, Presupplementary motor area, Corpus Striatum, FRONTO-BASAL-GANGLIA, Transcranial magnetic stimulation, Brain stimulation, TASK, Decision making, 030217 neurology & neurosurgery, Psychomotor Performance

Abstract

Many perceptual decisions are inevitably subject to the tradeoff between speed and accuracy of choices (SAT). Sequential sampling models attribute this ubiquitous relation to random noise in the sensory evidence accumulation process, and assume that SAT is adaptively modulated by altering the decision thresholds at which the level of integrated evidence should reach for making a choice. Although, neuroimaging studies have shown a relationship between right presupplementary motor area (pre-SMA) activity and threshold setting, only a limited number of brain stimulation studies aimed at establishing the causal link, results of which were inconsistent. Additionally, these studies were limited in scope as they only examined the effect of pre-SMA activity unidirectionally through experimentally inhibiting the neural activity in this region. The current study aims to investigate the predictions of the striatal theory of SAT by experimentally assessing the modulatory effect of right pre-SMA on threshold setting bi-directionally. To this end, we applied both offline inhibition and excitation to the right pre-SMA utilizing transcranial magnetic stimulation in a within-subjects design and tested participants on a Random Dot Motion Task. Decision thresholds were estimated using the Hierarchical Drift Diffusion Model. Findings of our planned comparisons showed that right pre-SMA inhibition leads to significantly higher, whereas right pre-SMA excitation leads to significantly lower thresholds without showing any effects on the evidence integration process itself.

Published

2018

2. Horizontal tuning for faces originates in high-level Fusiform Face Area

Author

Felix Duecker, Valerie Goffaux, Christine Schiltz, Lars Hausfeld, Rainer Goebel, RS: FPN CN 1, Vision, Cognition, RS: FPN CN 4, Audition, and RS: FPN CN 2

Subjects

Male, INVERTED FACES, Visual perception, FEATURES, Functional Laterality, IMAGE-STATISTICS, Behavioral Neuroscience, Inversion effect, 0302 clinical medicine, Face perception, Image Processing, Computer-Assisted, Computer vision, Visual Cortex, media_common, Brain Mapping, 05 social sciences, Magnetic Resonance Imaging, FUNCTIONAL ARCHITECTURE, SPATIAL-FREQUENCY, medicine.anatomical_structure, Pattern Recognition, Visual, FMRI, Female, Spatial frequency, Psychology, Adult, ORIENTATION SELECTIVITY, OFA, Cognitive Neuroscience, media_common.quotation_subject, Experimental and Cognitive Psychology, Stimulus (physiology), 050105 experimental psychology, Horizontal, Young Adult, 03 medical and health sciences, Orientation, MVPA, Perception, medicine, Humans, Visual Pathways, 0501 psychology and cognitive sciences, VISUAL-CORTEX, Analysis of Variance, V1, PERCEPTION, Communication, business.industry, Oblique case, Fusiform face area, Oxygen, Visual cortex, Face, Linear Models, NATURAL SCENES, Artificial intelligence, FFA, business, Photic Stimulation, 030217 neurology & neurosurgery

Abstract

Recent work indicates that the specialization of face visual perception relies on the privileged processing of horizontal angles of facial information. This suggests that stimulus properties assumed to be fully resolved in primary visual cortex (V1; e.g., orientation) in fact determine human vision until high-level stages of processing. To address this hypothesis, the present fMRI study explored the orientation sensitivity of V1 and high-level face-specialized ventral regions such as the Occipital Face Area (OFA) and Fusiform Face Area (FFA) to different angles of face information. Participants viewed face images filtered to retain information at horizontal, vertical or oblique angles. Filtered images were viewed upright, inverted and (phase-)scrambled. FFA responded most strongly to the horizontal range of upright face information; its activation pattern reliably separated horizontal from oblique ranges, but only when faces were upright. Moreover, activation patterns induced in the right FFA and the OFA by upright and inverted faces could only be separated based on horizontal information. This indicates that the specialized processing of upright face information in the OFA and FFA essentially relies on the encoding of horizontal facial cues. This pattern was not passively inherited from V1, which was found to respond less strongly to horizontal than other orientations likely due to adaptive whitening. Moreover, we found that orientation decoding accuracy in V1 was impaired for stimuli containing no meaningful shape. By showing that primary coding in V1 is influenced by high-order stimulus structure and that high-level processing is tuned to selective ranges of primary information, the present work suggests that primary and high-level levels of the visual system interact in order to modulate the processing of certain ranges of primary information depending on their relevance with respect to the stimulus and task at hand.

Published

2016

3. Can processing of face trustworthiness bypass early visual cortex? A transcranial magnetic stimulation masking study

Author

Alexander T. Sack, Shanice E. W. Janssens, Tom A. de Graaf, Sarah Jessen, Cognition, and RS: FPN CN 4

Subjects

Adult, AWARENESS, Adolescent, Conscious perception, Cognitive Neuroscience, medicine.medical_treatment, media_common.quotation_subject, HEALTHY-SUBJECTS, Experimental and Cognitive Psychology, Cognitive neuroscience, Stimulus (physiology), Trust, 050105 experimental psychology, AMYGDALA RESPONSIVITY, Young Adult, 03 medical and health sciences, Behavioral Neuroscience, 0302 clinical medicine, Transcranial magnetic stimulation (TMS) masking, Perception, medicine, Humans, 0501 psychology and cognitive sciences, 10. No inequality, Visual Cortex, Trustworthiness, SUPPRESSION, media_common, OBJECTIVE MEASURES, PERCEPTION, 05 social sciences, Objective versus subjective processing, Healthy subjects, HUMAN BRAIN, Transcranial Magnetic Stimulation, Early visual cortex (EVC), Transcranial magnetic stimulation, VISION, Visual cortex, medicine.anatomical_structure, Social Perception, Space Perception, TMS, Psychology, Facial Recognition, 030217 neurology & neurosurgery, Cognitive psychology

Abstract

As a highly social species, we constantly evaluate human faces to decide whether we can trust someone. Previous studies suggest that face trustworthiness can be processed unconsciously, but the underlying neural pathways remain unclear. Specifically, the question remains whether processing of face trustworthiness relies on early visual cortex (EVC), required for conscious perception. If processing of trustworthiness can bypass EVC, then disrupting EVC should impair conscious trustworthiness perception while leaving forced-choice trustworthiness judgment intact. We applied double-pulse transcranial magnetic stimulation (TMS) to right EVC, at different stimulus onset asynchronies (SOAs) from presentation of a face in either the left or right hemifield. Faces were slightly rotated clockwise or counterclockwise, and were either trustworthy or untrustworthy. On each trial, participants discriminated 1) trustworthiness, 2) stimulus rotation, and 3) subjective visibility of trustworthiness. At early SOAs and specifically in the left hemifield, orientation processing (captured by the rotation task) was impaired by TMS. Crucially, though TMS also impaired subjective visibility of trustworthiness, no effects on trustworthiness discrimination were obtained. Conscious perception of face trustworthiness (captured by visibility ratings) relies on intact EVC, while forced-choice trustworthiness judgments may not. These results are consistent with the hypothesis that trustworthiness processing can bypass EVC. For basic visual features, extrastriate pathways are well-established; but face trustworthiness depends on a complex configuration of features. Its processing without EVC and outside of awareness is therefore of particular interest, further highlighting its ecological relevance.

Published

2020

4. The hybrid model of attentional control : new insights into hemispheric asymmetries inferred from TMS research

Author

Alexander T. Sack, Felix Duecker, RS: FPN CN 4, and Cognitive Neuroscience

Subjects

Dorsum, Frontal cortex, genetic structures, Cognitive Neuroscience, Shifting attention, medicine.medical_treatment, Models, Neurological, Attentional control, Posterior parietal cortex, Experimental and Cognitive Psychology, Transcranial Direct Current Stimulation, Functional Laterality, Frontal Lobe, Transcranial magnetic stimulation, Behavioral Neuroscience, Task-positive network, Parietal Lobe, medicine, Visual Perception, Humans, Attention, Psychology, Hybrid model, Neuroscience, Cognitive psychology

Abstract

Several competing theories on the mechanisms underlying attentional control have emerged over the years that, despite their substantial differences, all emphasize the importance of hemispheric asymmetries. Transcranial magnetic stimulation (TMS) has proven particularly successful in teasing them apart by selective perturbation of the dorsal and ventral fronto-parietal network. We here critically review the TMS literature and show that hemispheric asymmetries within the dorsal attention network differ between parietal and frontal cortex. Specifically, posterior parietal cortex seems to be characterized by a contralateral bias of each hemisphere and competition between them. In contrast, the right frontal eye field seems to be involved in shifting attention toward both hemifields, whereas left frontal eye field is only involved on shifting attention toward the contralateral hemifield. In the light of presented evidence, we propose to revise the functional-anatomical model originally proposed by Corbetta and Shulman (2011, 2001) and introduce a hybrid model of hemispheric asymmetries in attentional control.

Published

2015

5. Rhythmicity and cross-modal temporal cues facilitate detection

Author

Charles E. Schroeder, David Poeppel, Sanne ten Oever, Elana Zion-Golumbic, Nienke van Atteveldt, Cognitive Neuroscience, RS: FPN CN 1, RS: FPN CN 4, Educational Neuroscience, LEARN! - Social cognition and learning, and LEARN! - Brain, learning and development

Subjects

Adult, Male, VISUAL-STIMULI, Periodicity, CORTEX, Visual perception, Temporal prediction, Psychometrics, Cognitive Neuroscience, media_common.quotation_subject, Speech recognition, Audiovisual integration, Experimental and Cognitive Psychology, Signal-To-Noise Ratio, Stimulus (physiology), SPEECH SOUNDS, NEURONAL OSCILLATIONS, Article, Young Adult, Behavioral Neuroscience, Perceptual system, Rhythm, AUDITORY TASK-PERFORMANCE, Perception, Humans, Rhythmicity, REACTION-TIME, Sensory cue, media_common, MULTISENSORY INTEGRATION, Communication, PERCEPTION, LOW-FREQUENCY OSCILLATIONS, business.industry, ATTENTION, Multisensory integration, Auditory Threshold, Response bias, Detection, Acoustic Stimulation, Visual Perception, Female, Cues, Psychology, business

Abstract

Temporal structure in the environment often has predictive value for anticipating the occurrence of forthcoming events. In this study we investigated the influence of two types of predictive temporal information on the perception of near-threshold auditory stimuli: 1) intrinsic temporal rhythmicity within an auditory stimulus stream and 2) temporally-predictive visual cues. We hypothesized that combining predictive temporal information within- and across-modality should decrease the threshold at which sounds are detected, beyond the advantage provided by each information source alone. Two experiments were conducted in which participants had to detect tones in noise. Tones were presented in either rhythmic or random sequences and were preceded by a temporally predictive visual signal in half of the trials. We show that detection intensities are lower for rhythmic (vs. random) and audiovisual (vs. auditory-only) presentation, independent from response bias, and that this effect is even greater for rhythmic audiovisual presentation. These results suggest that both types of temporal information are used to optimally process sounds that occur at expected points in time (resulting in enhanced detection), and that multiple temporal cues are combined to improve temporal estimates. Our findings underscore the flexibility and proactivity of the perceptual system which uses within- and across-modality temporal cues to anticipate upcoming events and process them optimally. (C) 2014 Elsevier Ltd. All rights reserved.

Published

2014

6. Intensive tool-practice and skillfulness facilitate the extension of body representations in humans

Author

Daw-An Wu, Rosanne L. Rademaker, Ilona M. Bloem, Alexander T. Sack, Cognitive Neuroscience, and RS: FPN CN 4

Subjects

Male, Body schema, genetic structures, Cognitive Neuroscience, Individuality, Cotton balls, Adaptive change, Experimental and Cognitive Psychology, Body representation, Peripersonal space, Positive afterimage, 050105 experimental psychology, Afterimages, Sensory integration, Personal Space, Young Adult, 03 medical and health sciences, Behavioral Neuroscience, 0302 clinical medicine, Extension (metaphysics), Human–computer interaction, Body Image, Humans, Training, 0501 psychology and cognitive sciences, Body Representation, Communication, business.industry, 05 social sciences, Representation (systemics), Brain, Second-order object, Object (philosophy), Afterimage, Practice, Psychological, Female, Skill, Tool use, Psychology, business, Psychomotor Performance, 030217 neurology & neurosurgery

Abstract

The brain's representation of the body can be extended to include objects that are not originally part of the body. Various studies have found both extremely rapid extensions that occur as soon as an object is held, as well as extremely slow extensions that require weeks of training. Due to species and methodological differences, it is unclear whether the studies were probing different representations, or revealing multiple aspects of the same representation. Here, we present evidence that objects (cotton balls) held by a tool (chopsticks) are rapidly integrated into the body representation, as indexed by fading of the cotton balls (or 'second-order extensions') from a positive afterimage. Skillfulness with chopsticks was predictive of more rapid integration of the second-order cotton balls held by this tool. We also found that extensive training over a period of weeks augmented the level of integration. Together, our findings demonstrate integration of second-order objects held by tools, and reveal that the body representation probed by positive afterimages is subject to both rapid and slow processes of adaptive change. (C) 2014 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-SA license (http://creativecommons.org/licenses/by-nc-sa/3.0/).