Your search keyword '"Kveraga K"' showing total 48 results

1. Effect of uncertainty on the time course for selection of verbal name codes

Author

Berryhill, M. E., Kveraga, K., Webb, L., and Hughes, H. C.

Published

2005

2. Spatiotemporal dynamics and neural synchrony during perception of threatening vs. merely negative visual scenes

Author

Kveraga, K., primary, Boshyan, J., additional, Adams, R., additional, Hamalainen, M., additional, Hadjikhani, N., additional, Bar, M., additional, and Feldman Barrett, L., additional

Published

2012

3. Threat is separable from stimulus negativity in visual scenes

Author

Kveraga, K., primary, Boshyan, J., additional, Adams, R., additional, Bar, M., additional, Mote, J., additional, and Feldman Barrett, L., additional

Published

2011

4. Early activation of contextual associations during object recognition

Author

Kveraga, K., primary, Ghuman, A., additional, Kassam, K., additional, Aminoff, E., additional, Hamalainen, M., additional, Chaumon, M., additional, and Bar, M., additional

Published

2010

5. The basis of global and local visual perception revealed by psychophysical 'lesions'

Author

Thomas, C., primary, Kveraga, K., additional, and Bar, M., additional

Published

2010

6. Magnocellular contributions to top-down-facilitation of object recognition

Author

Kveraga, K., primary, Boshyan, J., additional, and Bar, M., additional

Published

2010

7. Learning to look the other way

Author

Kveraga, K., primary, Boucher, L., additional, and Hughes, H. C., additional

Published

2010

8. Latency of smooth pursuit under conditions of stimulus-response uncertainty

Author

Berryhill, M. E., primary, Boucher, L., additional, Kveraga, K., additional, and Hughes, H. C., additional

Published

2010

9. Magnocellular Projections as the Trigger of Top-Down Facilitation in Recognition

Author

Kveraga, K., primary, Boshyan, J., additional, and Bar, M., additional

Published

2007

10. Directional uncertainty in visually guided pointing.

Author

Kveraga K, Berryhill M, and Hughes HC

Published

2006

11. Incidence of Concurrent Cerebral Desaturation and Electroencephalographic Burst Suppression in Cardiac Surgery Patients.

Author

Ramachandran RV, Behera A, Hussain Z, Peck J, Ananthakrishanan A, Mathur P, Banner-Goodspeed V, Muehlschlegel JD, Pittet JF, Bardia A, Schonberger R, Marcantonio ER, Kveraga K, and Subramaniam B

Abstract

Background: Increased intraoperative electroencephalographic (EEG) burst suppression is associated with postoperative delirium. Cerebral desaturation is considered as one of the factors associated with burst suppression. Our study investigates the association between cerebral desaturation and burst suppression by analyzing their concurrence. Additionally, we aim to examine their association with cardiac surgical phases to identify potential for targeted interventions., Methods: We retrospectively analyzed intraoperative 1-minute interval observations in 51 patients undergoing cardiac surgery. Processed EEG and cerebral oximetry were collected, with the anesthesiologists blinded to the information. The associations between cerebral desaturation (defined as a 10% decrease from baseline) and burst suppression, as well as with phase of cardiac surgery, were analyzed using the Generalized Logistic Mixed Effect Model. The results were presented as odds ratio and 95% confidence intervals (CIs). A value of P < .05 was considered statistically significant., Results: The odds of burst suppression increased 1.5 times with cerebral desaturation (odds ratio [OR], 1.52, 95% CI, 1.11-2.07; P = .009). Compared to precardiopulmonary bypass (pre-CPB), the odds of cerebral desaturation were notably higher during CPB (OR, 22.1, 95% CI, 12.4-39.2; P < .001) and post-CPB (OR, 18.2, 95% CI, 12.2-27.3; P < .001). However, the odds of burst suppression were lower during post-CPB (OR, 0.69, 95% CI, 0.59-0.81; P < .001) compared to pre-CPB. Compared to pre-CPB, the odds of concurrent cerebral desaturation and burst suppression were notably higher during CPB (OR, 52.3, 95% CI, 19.5-140; P < .001) and post-CPB (OR, 12.7, 95% CI, 6.39-25.2; P < .001). During CPB, the odds of cerebral desaturation (OR, 6.59, 95% CI, 3.62-12; P < .001) and concurrent cerebral desaturation and burst suppression (OR, 10, 95% CI, 4.01-25.1; P < .001) were higher in the period between removal of aortic cross-clamp and end of CPB. During the entire surgery, the odds of burst suppression increased 8 times with higher inhalational anesthesia concentration (OR, 7.81, 95% CI, 6.26-9.74; P < .001 per 0.1% increase)., Conclusions: Cerebral desaturation is associated with intraoperative burst suppression during cardiac surgery, most significantly during CPB, especially during the period between the removal of the aortic cross-clamp and end of CPB. Further exploration with simultaneous cerebral oximetry and EEG monitoring is required to determine the causes of burst suppression. Targeted interventions to address cerebral desaturation may assist in mitigating burst suppression and consequently enhance postoperative cognitive function., Competing Interests: Conflicts of Interest, Funding: Please see DISCLOSURES at the end of this article., (Copyright © 2024 International Anesthesia Research Society.)

Published

2024

12. The Influence of Preoperative Physical Activity on Intraoperative Brain Function in Cardiac Surgical patients.

Author

Ramachandran RV, Ananthakrishnan A, Orui H, Kveraga K, and Subramaniam B

Abstract

Background Preoperative physical activity and intraoperative brain health are recognized to influence postoperative delirium (POD). Electroencephalogram (EEG) burst suppression and cerebral desaturation are indicators of abnormal intraoperative brain health. Our study aimed to investigate the associations between preoperative physical activity and intraoperative EEG burst suppression and cerebral desaturation. Methods We retrospectively analyzed data from 67 patients from one of the institutions participating in a multisite randomized controlled trial, PANDORA, involving patients undergoing cardiac surgery. The preoperative PCS12 score calculated using the SF12 questionnaire was used as an indicator of preoperative physical activity. Intraoperative EEG and cerebral oximetry data (not the current standard of care in this facility) were collected, and the anesthesiologists were blinded to the information. We analyzed the following associations between the PCS12 score and i) burst suppression duration, ii) the number of cerebral desaturations, and iii) the number of observations with concurrent cerebral desaturation and burst suppression using a generalized linear model. The results are presented as percentage changes in outcomes, and a 95% C.I. p value < 0.05 was considered to indicate statistical significance. Results Each unit increase in the PCS12 score was associated with a 3.3% decrease in the duration of burst suppression (-3.3 [-5.3, -1.2], p value = 0.002). The duration of burst suppression decreased by 29.2% with each successive quartile increase in the PCS-12 score, indicating a dose‒response relationship (-29.2 [-41.6, -16], p < 0.001). Specifically, the patients in the last three quartiles exhibited a 55.4% reduction in BSD compared to those in the first quartile (-55.4 [-74.4, -24.6], p = 0.002) (Fig. 2). We did not observe any significant association between the PCS12 score and cerebral desaturation. Conclusion Decreased preoperative physical activity, as measured by the SF-12 questionnaire, is significantly associated with increased EEG burst suppression duration. Preoperative physical activity did not show any association with cerebral desaturations and concurrent cerebral desaturation and burst suppression. Clinical Trial information ClinicalTrials.gov Identifier- NCT04093219 https://clinicaltrials.gov/ct2/show/NCT04093219 Principal Investigator - Balachundhar Subramaniam Date of registration - September 13, 2019.

Published

2024

13. Americans weigh an attended emotion more than Koreans in overall mood judgments.

Author

Son G, Im HY, Albohn DN, Kveraga K, Adams RB Jr, Sun J, and Chong SC

Subjects

Humans, United States, Facial Expression, Emotions, Anger, Judgment, East Asian People

Abstract

Face ensemble coding is the perceptual ability to create a quick and overall impression of a group of faces, triggering social and behavioral motivations towards other people (approaching friendly people or avoiding an angry mob). Cultural differences in this ability have been reported, such that Easterners are better at face ensemble coding than Westerners are. The underlying mechanism has been attributed to differences in processing styles, with Easterners allocating attention globally, and Westerners focusing on local parts. However, the remaining question is how such default attention mode is influenced by salient information during ensemble perception. We created visual displays that resembled a real-world social setting in which one individual in a crowd of different faces drew the viewer's attention while the viewer judged the overall emotion of the crowd. In each trial, one face in the crowd was highlighted by a salient cue, capturing spatial attention before the participants viewed the entire group. American participants' judgment of group emotion more strongly weighed the attended individual face than Korean participants, suggesting a greater influence of local information on global perception. Our results showed that different attentional modes between cultural groups modulate social-emotional processing underlying people's perceptions and attributions., (© 2023. The Author(s).)

Published

2023

14. The shared signal hypothesis: Facial and bodily expressions of emotion mutually inform one another.

Author

Albohn DN, Brandenburg JC, Kveraga K, and Adams RB Jr

Subjects

Cues, Facial Expression, Humans, Photic Stimulation, Emotions, Facial Recognition

Abstract

Decades of research show that contextual information from the body, visual scene, and voices can facilitate judgments of facial expressions of emotion. To date, most research suggests that bodily expressions of emotion offer context for interpreting facial expressions, but not vice versa. The present research aimed to investigate the conditions under which mutual processing of facial and bodily displays of emotion facilitate and/or interfere with emotion recognition. In the current two studies, we examined whether body and face emotion recognition are enhanced through integration of shared emotion cues, and/or hindered through mixed signals (i.e., interference). We tested whether faces and bodies facilitate or interfere with emotion processing by pairing briefly presented (33 ms), backward-masked presentations of faces with supraliminally presented bodies (Experiment 1) and vice versa (Experiment 2). Both studies revealed strong support for integration effects, but not interference. Integration effects are most pronounced for low-emotional clarity facial and bodily expressions, suggesting that when more information is needed in one channel, the other channel is recruited to disentangle any ambiguity. That this occurs for briefly presented, backward-masked presentations reveals low-level visual integration of shared emotional signal value., (© 2022. The Psychonomic Society, Inc.)

Published

2022

15. Short Term Effects of Inner Engineering Completion Online Program on Stress and Well-Being Measures.

Author

Upadhyay P, Joshi A, Mishra I, Kelly L, Novack L, Hariri S, Kveraga K, and Subramaniam B

Abstract

Introduction: The Covid-19 pandemic has been a major disruptor of routine life, resulting in increased stress and predisposing people to negative outcomes, such as insomnia, anxiety and hopelessness. Mind-body interventions have improved concentration, emotional balance, and positive emotions, with an enhanced sense of productivity, and self-confidence. We therefore hypothesized that exposure to an online mind-body intervention, "Inner Engineering Completion Online (IECO)," would reduce stress and promote well-being., Methods: This prospective cohort study enrolled participants registered for the IECO courses, which for the first time were delivered remotely, online. Participants learned a 21-min meditation practice called Shambhavi Mahamudra Kriya during the course, which incorporates controlled breathing and mediation techniques. Each enrolled participant was asked to complete self-reported electronic surveys at three key time points: at the time of consent, immediately after completing IECO, and 6 weeks after IECO completion. Effects of IECO practice were assessed using four well-validated neuropsychological scales: Perceived Stress Scale (PSS), Positive Emotion/Relationship/Engagement Scale (PERMA) Profiler, Pittsburgh Sleep Quality Index (PSQI), and Mindful Attention Awareness Scale (MAAS). A Signed Rank test was used to analyze the survey data and P -values of < 0.05 were considered statistically significant., Results: Of the 375 participants interested in participation, 164 participants were eligible. Sixty-eight participants completed surveys at all time points and were identified as compliant participants. The baseline median score for PSS in compliant participants ( n = 95) was 13.5 (IQR 9, 18); immediate post-IECO median PSS score was 12 (IQR 8, 16) demonstrating a 1.5 unit decrease in PSS scores ( p -value = 0.0023). Similarly, comparing PSS scores in compliant participants ( n = 68) for immediate Post IECO [11.5 (IQR 8, 15.5)] to PSS scores at six weeks [8 (IQR 4.5, 12.5)] showed a statistically significant 3.5-unit decrease, indicating a reduction in stress upon routine practice of the intervention ( p < 0.0001)., Conclusion: Incorporating the remotely delivered mind-body intervention Shambhavi Mahamudra Kriya into daily life via the IECO program over as few as 6 weeks produced a significant stress reduction, improvement in sleep quality and mindfulness., Clinical Trial Registration: [ClinicalTrials.gov], identifier [NCT04189146]., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Upadhyay, Joshi, Mishra, Kelly, Novack, Hariri, Kveraga and Subramaniam.)

Published

2022

16. Advanced Meditation Alters Resting-State Brain Network Connectivity Correlating With Improved Mindfulness.

Author

Vishnubhotla RV, Radhakrishnan R, Kveraga K, Deardorff R, Ram C, Pawale D, Wu YC, Renschler J, Subramaniam B, and Sadhasivam S

Abstract

Purpose: The purpose of this study was to investigate the effect of an intensive 8-day Samyama meditation program on the brain functional connectivity using resting-state functional MRI (rs-fMRI). Methods: Thirteen Samyama program participants (meditators) and 4 controls underwent fMRI brain scans before and after the 8-day residential meditation program. Subjects underwent fMRI with a blood oxygen level dependent (BOLD) contrast at rest and during focused breathing. Changes in network connectivity before and after Samyama program were evaluated. In addition, validated psychological metrics were correlated with changes in functional connectivity. Results: Meditators showed significantly increased network connectivity between the salience network (SN) and default mode network (DMN) after the Samyama program ( p < 0.01). Increased connectivity within the SN correlated with an improvement in self-reported mindfulness scores ( p < 0.01). Conclusion: Samyama, an intensive silent meditation program, favorably increased the resting-state functional connectivity between the salience and default mode networks. During focused breath watching, meditators had lower intra-network connectivity in specific networks. Furthermore, increased intra-network connectivity correlated with improved self-reported mindfulness after Samyama. Clinical Trials Registration: [https://clinicaltrials.gov], Identifier: [NCT04366544]. Registered on 4/17/2020., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Vishnubhotla, Radhakrishnan, Kveraga, Deardorff, Ram, Pawale, Wu, Renschler, Subramaniam and Sadhasivam.)

Published

2021

17. Differential neurodynamics and connectivity in the dorsal and ventral visual pathways during perception of emotional crowds and individuals: a MEG study.

Author

Im HY, Cushing CA, Ward N, and Kveraga K

Subjects

Emotions, Facial Expression, Humans, Magnetoencephalography, Facial Recognition, Visual Pathways

Abstract

Reading the prevailing emotion of groups of people ("crowd emotion") is critical to understanding their overall intention and disposition. It alerts us to potential dangers, such as angry mobs or panicked crowds, giving us time to escape. A critical aspect of processing crowd emotion is that it must occur rapidly, because delays often are costly. Although knowing the timing of neural events is crucial for understanding how the brain guides behaviors using coherent signals from a glimpse of multiple faces, this information is currently lacking in the literature on face ensemble coding. Therefore, we used magnetoencephalography to examine the neurodynamics in the dorsal and ventral visual streams and the periamygdaloid cortex to compare perception of groups of faces versus individual faces. Forty-six participants compared two groups of four faces or two individual faces with varying emotional expressions and chose which group or individual they would avoid. We found that the dorsal stream was activated as early as 68 msec after the onset of stimuli containing groups of faces. In contrast, the ventral stream was activated later and predominantly for individual face stimuli. The latencies of the dorsal stream activation peaks correlated with participants' response times for facial crowds. We also found enhanced connectivity earlier between the periamygdaloid cortex and the dorsal stream regions for crowd emotion perception. Our findings suggest that ensemble coding of facial crowds proceeds rapidly and in parallel by engaging the dorsal stream to mediate adaptive social behaviors, via a distinct route from single face perception., (© 2021. The Psychonomic Society, Inc.)

Published

2021

18. Fast saccadic and manual responses to faces presented to the koniocellular visual pathway.

Author

Kveraga K, Im HY, Ward N, and Adams RB Jr

Subjects

Adult, Cues, Female, Humans, Male, Reaction Time physiology, Young Adult, Facial Expression, Saccades physiology, Visual Pathways physiology

Abstract

The parallel pathways of the human visual system differ in their tuning to luminance, color, and spatial frequency. These attunements recently have been shown to propagate to differential processing of higher-order stimuli, facial threat cues, in the magnocellular (M) and parvocellular (P) pathways, with greater sensitivity to clear and ambiguous threat, respectively. The role of the third, koniocellular (K) pathway in facial threat processing, however, remains unknown. To address this gap in knowledge, we briefly presented peripheral face stimuli psychophysically biased towards M, P, or K pathways. Observers were instructed to report via a key-press whether the face was angry or neutral while their eye movements and manual responses were recorded. We found that short-latency saccades were made more frequently to faces presented in the K channel than to P or M channels. Saccade latencies were not significantly modulated by expressive and identity cues. In contrast, manual response latencies and accuracy were modulated by both pathway biasing and by interactions of facial expression with facial masculinity, such that angry male faces elicited the fastest, and angry female faces, the least accurate, responses. We conclude that face stimuli can evoke fast saccadic and manual responses when projected to the K pathway.

Published

2020

19. Spatial and feature-based attention to expressive faces.

Author

Kveraga K, De Vito D, Cushing C, Im HY, Albohn DN, and Adams RB Jr

Subjects

Adolescent, Adult, Female, Humans, Male, Young Adult, Attention physiology, Emotions physiology, Facial Expression, Facial Recognition physiology, Social Perception, Space Perception physiology

Abstract

Facial emotion is an important cue for deciding whether an individual is potentially helpful or harmful. However, facial expressions are inherently ambiguous and observers typically employ other cues to categorize emotion expressed on the face, such as race, sex, and context. Here, we explored the effect of increasing or reducing different types of uncertainty associated with a facial expression that is to be categorized. On each trial, observers responded according to the emotion and location of a peripherally presented face stimulus and were provided with either: (1) no information about the upcoming face; (2) its location; (3) its expressed emotion; or (4) both its location and emotion. While cueing emotion or location resulted in faster response times than cueing unpredictive information, cueing face emotion alone resulted in faster responses than cueing face location alone. Moreover, cueing both stimulus location and emotion resulted in a superadditive reduction of response times compared with cueing location or emotion alone, suggesting that feature-based attention to emotion and spatially selective attention interact to facilitate perception of face stimuli. While categorization of facial expressions was significantly affected by stable identity cues (sex and race) in the face, we found that these interactions were eliminated when uncertainty about facial expression, but not spatial uncertainty about stimulus location, was reduced by predictive cueing. This demonstrates that feature-based attention to facial expression greatly attenuates the need to rely on stable identity cues to interpret facial emotion.

Published

2019

20. Magnocellular and parvocellular pathway contributions to facial threat cue processing.

Author

Cushing CA, Im HY, Adams RB Jr, Ward N, and Kveraga K

Subjects

Adult, Cues, Facial Expression, Fear psychology, Female, Humans, Male, Visual Perception physiology, Amygdala physiology, Emotions physiology, Fear physiology, Fixation, Ocular physiology

Abstract

Human faces evolved to signal emotions, with their meaning contextualized by eye gaze. For instance, a fearful expression paired with averted gaze clearly signals both presence of threat and its probable location. Conversely, direct gaze paired with facial fear leaves the source of the fear-evoking threat ambiguous. Given that visual perception occurs in parallel streams with different processing emphases, our goal was to test a recently developed hypothesis that clear and ambiguous threat cues would differentially engage the magnocellular (M) and parvocellular (P) pathways, respectively. We employed two-tone face images to characterize the neurodynamics evoked by stimuli that were biased toward M or P pathways. Human observers (N = 57) had to identify the expression of fearful or neutral faces with direct or averted gaze while their magnetoencephalogram was recorded. Phase locking between the amygdaloid complex, orbitofrontal cortex (OFC) and fusiform gyrus increased early (0-300 ms) for M-biased clear threat cues (averted-gaze fear) in the β-band (13-30 Hz) while P-biased ambiguous threat cues (direct-gaze fear) evoked increased θ (4-8 Hz) phase locking in connections with OFC of the right hemisphere. We show that M and P pathways are relatively more sensitive toward clear and ambiguous threat processing, respectively, and characterize the neurodynamics underlying emotional face processing in the M and P pathways., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2019

21. Differential magnocellular versus parvocellular pathway contributions to the combinatorial processing of facial threat.

Author

Adams RB Jr, Im HY, Cushing C, Boshyan J, Ward N, Albohn DN, and Kveraga K

Subjects

Adult, Amygdala physiology, Cues, Female, Humans, Magnetic Resonance Imaging, Male, Nerve Net physiology, Photic Stimulation methods, Brain physiology, Facial Expression, Fear psychology

Abstract

Recently, speed of presentation of facially expressive stimuli was found to influence the processing of compound threat cues (e.g., anger/fear/gaze). For instance, greater amygdala responses were found to clear (e.g., direct gaze anger/averted gaze fear) versus ambiguous (averted gaze anger/direct gaze fear) combinations of threat cues when rapidly presented (33 and 300ms), but greater to ambiguous versus clear threat cues when presented for more sustained durations (1, 1.5, and 2s). A working hypothesis was put forth (Adams et al., 2012) that these effects were due to differential magnocellular versus parvocellular pathways contributions to the rapid versus sustained processing of threat, respectively. To test this possibility directly here, we restricted visual stream processing in the fMRI environment using facially expressive stimuli specifically designed to bias visual input exclusively to the magnocellular versus parvocellular pathways. We found that for magnocellular-biased stimuli, activations were predominantly greater to clear versus ambiguous threat-gaze pairs (on par with that previously found for rapid presentations of threat cues), whereas activations to ambiguous versus clear threat-gaze pairs were greater for parvocellular-biased stimuli (on par with that previously found for sustained presentations). We couch these findings in an adaptive dual process account of threat perception and highlight implications for other dual process models within psychology., (© 2019 Elsevier B.V. All rights reserved.)

Published

2019

22. Sex-related differences in behavioral and amygdalar responses to compound facial threat cues.

Author

Im HY, Adams RB Jr, Cushing CA, Boshyan J, Ward N, and Kveraga K

Subjects

Adult, Female, Fixation, Ocular physiology, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Young Adult, Amygdala physiology, Brain Mapping methods, Facial Expression, Facial Recognition physiology, Fear physiology, Sex Characteristics, Social Perception

Abstract

During face perception, we integrate facial expression and eye gaze to take advantage of their shared signals. For example, fear with averted gaze provides a congruent avoidance cue, signaling both threat presence and its location, whereas fear with direct gaze sends an incongruent cue, leaving threat location ambiguous. It has been proposed that the processing of different combinations of threat cues is mediated by dual processing routes: reflexive processing via magnocellular (M) pathway and reflective processing via parvocellular (P) pathway. Because growing evidence has identified a variety of sex differences in emotional perception, here we also investigated how M and P processing of fear and eye gaze might be modulated by observer's sex, focusing on the amygdala, a structure important to threat perception and affective appraisal. We adjusted luminance and color of face stimuli to selectively engage M or P processing and asked observers to identify emotion of the face. Female observers showed more accurate behavioral responses to faces with averted gaze and greater left amygdala reactivity both to fearful and neutral faces. Conversely, males showed greater right amygdala activation only for M-biased averted-gaze fear faces. In addition to functional reactivity differences, females had proportionately greater bilateral amygdala volumes, which positively correlated with behavioral accuracy for M-biased fear. Conversely, in males only the right amygdala volume was positively correlated with accuracy for M-biased fear faces. Our findings suggest that M and P processing of facial threat cues is modulated by functional and structural differences in the amygdalae associated with observer's sex., (© 2018 Wiley Periodicals, Inc.)

Published

2018

23. Line-Drawn Scenes Provide Sufficient Information for Discrimination of Threat and Mere Negativity.

Author

Boshyan J, Feldman Barrett L, Betz N, Adams RB Jr, and Kveraga K

Abstract

Previous work using color photographic scenes has shown that human observers are keenly sensitive to different types of threatening and negative stimuli and reliably classify them by the presence, and spatial and temporal directions of threat. To test whether such distinctions can be extracted from impoverished visual information, we used 500 line drawings made by hand-tracing the original set of photographic scenes. Sixty participants rated the scenes on spatial and temporal dimensions of threat. Based on these ratings, trend analysis revealed five scene categories that were comparable to those identified for the matching color photographic scenes. Another 61 participants were randomly assigned to rate the valence or arousal evoked by the line drawings. The line drawings perceived to be the most negative were also perceived to be the most arousing, replicating the finding for color photographic scenes. We demonstrate here that humans are very sensitive to the spatial and temporal directions of threat even when they must extract this information from simple line drawings, and rate the line drawings very similarly to matched color photographs. The set of 500 hand-traced line-drawing scenes has been made freely available to the research community: http://www.kveragalab.org/threat.html.

Published

2018

24. Neurodynamics and connectivity during facial fear perception: The role of threat exposure and signal congruity.

Author

Cushing CA, Im HY, Adams RB Jr, Ward N, Albohn DN, Steiner TG, and Kveraga K

Subjects

Adolescent, Cues, Female, Humans, Magnetic Resonance Imaging methods, Male, Photic Stimulation, Young Adult, Amygdala physiology, Facial Expression, Facial Recognition, Fear psychology, Fixation, Ocular, Time Factors

Abstract

Fearful faces convey threat cues whose meaning is contextualized by eye gaze: While averted gaze is congruent with facial fear (both signal avoidance), direct gaze (an approach signal) is incongruent with it. We have previously shown using fMRI that the amygdala is engaged more strongly by fear with averted gaze during brief exposures. However, the amygdala also responds more to fear with direct gaze during longer exposures. Here we examined previously unexplored brain oscillatory responses to characterize the neurodynamics and connectivity during brief (~250 ms) and longer (~883 ms) exposures of fearful faces with direct or averted eye gaze. We performed two experiments: one replicating the exposure time by gaze direction interaction in fMRI (N = 23), and another where we confirmed greater early phase locking to averted-gaze fear (congruent threat signal) with MEG (N = 60) in a network of face processing regions, regardless of exposure duration. Phase locking to direct-gaze fear (incongruent threat signal) then increased significantly for brief exposures at ~350 ms, and at ~700 ms for longer exposures. Our results characterize the stages of congruent and incongruent facial threat signal processing and show that stimulus exposure strongly affects the onset and duration of these stages.

Published

2018

25. Observer's anxiety facilitates magnocellular processing of clear facial threat cues, but impairs parvocellular processing of ambiguous facial threat cues.

Author

Im HY, Adams RB Jr, Boshyan J, Ward N, Cushing CA, and Kveraga K

Subjects

Adolescent, Adult, Aged, Cues, Female, Humans, Male, Middle Aged, Young Adult, Anxiety, Basal Nucleus of Meynert physiology, Edinger-Westphal Nucleus physiology, Facial Expression, Facial Recognition

Abstract

Facial expression and eye gaze provide a shared signal about threats. While a fear expression with averted gaze clearly points to the source of threat, direct-gaze fear renders the source of threat ambiguous. Separable routes have been proposed to mediate these processes, with preferential attunement of the magnocellular (M) pathway to clear threat, and of the parvocellular (P) pathway to threat ambiguity. Here we investigated how observers' trait anxiety modulates M- and P-pathway processing of clear and ambiguous threat cues. We scanned subjects (N = 108) widely ranging in trait anxiety while they viewed fearful or neutral faces with averted or directed gaze, with the luminance and color of face stimuli calibrated to selectively engage M- or P-pathways. Higher anxiety facilitated processing of clear threat projected to M-pathway, but impaired perception of ambiguous threat projected to P-pathway. Increased right amygdala reactivity was associated with higher anxiety for M-biased averted-gaze fear, while increased left amygdala reactivity was associated with higher anxiety for P-biased, direct-gaze fear. This lateralization was more pronounced with higher anxiety. Our findings suggest that trait anxiety differentially affects perception of clear (averted-gaze fear) and ambiguous (direct-gaze fear) facial threat cues via selective engagement of M and P pathways and lateralized amygdala reactivity.

Published

2017

26. Cross-cultural and hemispheric laterality effects on the ensemble coding of emotion in facial crowds.

Author

Im HY, Chong SC, Sun J, Steiner TG, Albohn DN, Adams RB Jr, and Kveraga K

Abstract

In many social situations, we make a snap judgment about crowds of people relying on their overall mood (termed "crowd emotion"). Although reading crowd emotion is critical for interpersonal dynamics, the sociocultural aspects of this process have not been explored. The current study examined how culture modulates the processing of crowd emotion in Korean and American observers. Korean and American (non-East Asian) participants were briefly presented with two groups of faces that were individually varying in emotional expressions and asked to choose which group between the two they would rather avoid. We found that Korean participants were more accurate than American participants overall, in line with the framework on cultural viewpoints: Holistic versus analytic processing in East Asians versus Westerners. Moreover, we found a speed advantage for other-race crowds in both cultural groups. Finally, we found different hemispheric lateralization patterns: American participants were more accurate to perceive the facial crowd to be avoided when it was presented in the left visual field than the right visual field, indicating a right hemisphere advantage for processing crowd emotion of both European American and Korean facial crowds. However, Korean participants showed weak or nonexistent laterality effects, with a slight right hemisphere advantage for European American facial crowds and no advantage in perceiving Korean facial crowds. Instead, Korean participants showed positive emotion bias for own-race faces. This work suggests that culture plays a role in modulating our crowd emotion perception of groups of faces and responses to them., Competing Interests: Declaration of Conflicting Interests The authors declared that they had no conflicts of interest with respect to their authorship or the publication of the article.

Published

2017

27. Social Vision: Applying a Social-Functional Approach to Face and Expression Perception.

Author

Adams RB Jr, Albohn DN, and Kveraga K

Abstract

A social-functional approach to face processing comes with a number of assumptions. First, given that humans possess limited cognitive resources, it assumes that we naturally allocate attention to processing and integrating the most adaptively relevant social cues. Second, from these cues, we make behavioral forecasts about others in order to respond in an efficient and adaptive manner. This assumption aligns with broader ecological accounts of vision that highlight a direct action-perception link, even for nonsocial vision. Third, humans are naturally predisposed to process faces in this functionally adaptive manner. This latter contention is implied by our attraction to dynamic aspects of the face, including looking behavior and facial expressions, from which we tend to overgeneralize inferences, even when forming impressions of stable traits. The functional approach helps to address how and why observers are able to integrate functionally related compound social cues in a manner that is ecologically relevant and thus adaptive., Competing Interests: Declaration of Conflicting Interests The authors declared that they had no conflicts of interest with respect to their authorship or the publication of this article.

Published

2017

28. Internal valence modulates the speed of object recognition.

Author

Panichello MF, Kveraga K, Chaumon M, Bar M, and Barrett LF

Subjects

Adult, Brain Mapping, Evoked Potentials, Visual, Female, Humans, Magnetoencephalography, Male, Occipital Lobe physiology, Photic Stimulation, Temporal Lobe physiology, Visual Cortex physiology, Young Adult, Affect, Cerebral Cortex physiology, Pattern Recognition, Visual physiology, Reaction Time

Abstract

Brain regions that process affect are strongly connected with visual regions, but the functional consequences of this structural organization have been relatively unexplored. How does the momentary affect of an observer influence perception? We induced either pleasant or unpleasant affect in participants and then recorded their neural activity using magnetoencephalography while they completed an object recognition task. We hypothesized, and found, that affect influenced the speed of object recognition by modulating the speed and amplitude of evoked responses in occipitotemporal cortex and regions important for representing affect. Furthermore, affect modulated functional interactions between affective and perceptual regions early during perceptual processing. These findings indicate that affect can serve as an important contextual influence on object recognition processes.

Published

2017

29. Predictions penetrate perception: Converging insights from brain, behaviour and disorder.

Author

O'Callaghan C, Kveraga K, Shine JM, Adams RB Jr, and Bar M

Subjects

Humans, Brain physiology, Cognition physiology, Emotions physiology, Hallucinations physiopathology, Social Perception, Visual Perception physiology

Abstract

It is argued that during ongoing visual perception, the brain is generating top-down predictions to facilitate, guide and constrain the processing of incoming sensory input. Here we demonstrate that these predictions are drawn from a diverse range of cognitive processes, in order to generate the richest and most informative prediction signals. This is consistent with a central role for cognitive penetrability in visual perception. We review behavioural and mechanistic evidence that indicate a wide spectrum of domains-including object recognition, contextual associations, cognitive biases and affective state-that can directly influence visual perception. We combine these insights from the healthy brain with novel observations from neuropsychiatric disorders involving visual hallucinations, which highlight the consequences of imbalance between top-down signals and incoming sensory information. Together, these lines of evidence converge to indicate that predictive penetration, be it cognitive, social or emotional, should be considered a fundamental framework that supports visual perception., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2017

30. Differential hemispheric and visual stream contributions to ensemble coding of crowd emotion.

Author

Im HY, Albohn DN, Steiner TG, Cushing CA, Adams RB Jr, and Kveraga K

Abstract

In crowds, where scrutinizing individual facial expressions is inefficient, humans can make snap judgments about the prevailing mood by reading "crowd emotion". We investigated how the brain accomplishes this feat in a set of behavioral and fMRI studies. Participants were asked to either avoid or approach one of two crowds of faces presented in the left and right visual hemifields. Perception of crowd emotion was improved when crowd stimuli contained goal-congruent cues and was highly lateralized to the right hemisphere. The dorsal visual stream was preferentially activated in crowd emotion processing, with activity in the intraparietal sulcus and superior frontal gyrus predicting perceptual accuracy for crowd emotion perception, whereas activity in the fusiform cortex in the ventral stream predicted better perception of individual facial expressions. Our findings thus reveal significant behavioral differences and differential involvement of the hemispheres and the major visual streams in reading crowd versus individual face expressions., Competing Interests: Declaration of Conflicting Interests The authors declared that they had no conflicts of interest with respect to their authorship or the publication of the article.

Published

2017

31. Convergent evidence for top-down effects from the "predictive brain".

Author

O'Callaghan C, Kveraga K, Shine JM, Adams RB, and Bar M

Subjects

Social Behavior, Visual Perception, Brain, Hallucinations, Learning

Abstract

Modern conceptions of brain function consider the brain as a "predictive organ," where learned regularities about the world are utilised to facilitate perception of incoming sensory input. Critically, this process hinges on a role for cognitive penetrability. We review a mechanism to explain this process and expand our previous proposals of cognitive penetrability in visual recognition to social vision and visual hallucinations.

Published

2016

32. Social Vision: Functional Forecasting and the Integration of Compound Social Cues.

Author

Adams RB Jr and Kveraga K

Abstract

For decades the study of social perception was largely compartmentalized by type of social cue: race, gender, emotion, eye gaze, body language, facial expression etc. This was partly due to good scientific practice (e.g., controlling for extraneous variability), and partly due to assumptions that each type of social cue was functionally distinct from others. Herein, we present a functional forecast approach to understanding compound social cue processing that emphasizes the importance of shared social affordances across various cues (see too Adams, Franklin, Nelson, & Stevenson, 2010; Adams & Nelson, 2011; Weisbuch & Adams, 2012). We review the traditional theories of emotion and face processing that argued for dissociable and noninteracting pathways (e.g., for specific emotional expressions, gaze, identity cues), as well as more recent evidence for combinatorial processing of social cues. We argue here that early, and presumably reflexive, visual integration of such cues is necessary for adaptive behavioral responding to others. In support of this claim, we review contemporary work that reveals a flexible visual system, one that readily incorporates meaningful contextual influences in even nonsocial visual processing, thereby establishing the functional and neuroanatomical bases necessary for compound social cue integration. Finally, we explicate three likely mechanisms driving such integration. Together, this work implicates a role for cognitive penetrability in visual perceptual abilities that have often been (and in some cases still are) ascribed to direct encapsulated perceptual processes.

Published

2015

33. If it bleeds, it leads: separating threat from mere negativity.

Author

Kveraga K, Boshyan J, Adams RB Jr, Mote J, Betz N, Ward N, Hadjikhani N, Bar M, and Barrett LF

Subjects

Adult, Arousal physiology, Brain anatomy & histology, Brain physiology, Brain Mapping, Discrimination, Psychological physiology, Exploratory Behavior, Fear physiology, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Motivation, Oxygen blood, Photic Stimulation, Young Adult, Affect physiology, Emotions physiology

Abstract

Most theories of emotion hold that negative stimuli are threatening and aversive. Yet in everyday experiences some negative sights (e.g. car wrecks) attract curiosity, whereas others repel (e.g. a weapon pointed in our face). To examine the diversity in negative stimuli, we employed four classes of visual images (Direct Threat, Indirect Threat, Merely Negative and Neutral) in a set of behavioral and functional magnetic resonance imaging studies. Participants reliably discriminated between the images, evaluating Direct Threat stimuli most quickly, and Merely Negative images most slowly. Threat images evoked greater and earlier blood oxygen level-dependent (BOLD) activations in the amygdala and periaqueductal gray, structures implicated in representing and responding to the motivational salience of stimuli. Conversely, the Merely Negative images evoked larger BOLD signal in the parahippocampal, retrosplenial, and medial prefrontal cortices, regions which have been implicated in contextual association processing. Ventrolateral as well as medial and lateral orbitofrontal cortices were activated by both threatening and Merely Negative images. In conclusion, negative visual stimuli can repel or attract scrutiny depending on their current threat potential, which is assessed by dynamic shifts in large-scale brain network activity., (© The Author (2014). Published by Oxford University Press. For Permissions, please email: journals.permissions@oup.com.)

Published

2015

34. Visual predictions in the orbitofrontal cortex rely on associative content.

Author

Chaumon M, Kveraga K, Barrett LF, and Bar M

Subjects

Female, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Oxygen blood, Photic Stimulation, Predictive Value of Tests, Visual Cortex blood supply, Association, Brain Mapping, Recognition, Psychology physiology, Visual Cortex physiology

Abstract

Predicting upcoming events from incomplete information is an essential brain function. The orbitofrontal cortex (OFC) plays a critical role in this process by facilitating recognition of sensory inputs via predictive feedback to sensory cortices. In the visual domain, the OFC is engaged by low spatial frequency (LSF) and magnocellular-biased inputs, but beyond this, we know little about the information content required to activate it. Is the OFC automatically engaged to analyze any LSF information for meaning? Or is it engaged only when LSF information matches preexisting memory associations? We tested these hypotheses and show that only LSF information that could be linked to memory associations engages the OFC. Specifically, LSF stimuli activated the OFC in 2 distinct medial and lateral regions only if they resembled known visual objects. More identifiable objects increased activity in the medial OFC, known for its function in affective responses. Furthermore, these objects also increased the connectivity of the lateral OFC with the ventral visual cortex, a crucial region for object identification. At the interface between sensory, memory, and affective processing, the OFC thus appears to be attuned to the associative content of visual information and to play a central role in visuo-affective prediction., (© The Author 2013. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published

2014

35. The role of the parahippocampal cortex in cognition.

Author

Aminoff EM, Kveraga K, and Bar M

Subjects

Humans, Cognition, Parahippocampal Gyrus physiology

Abstract

The parahippocampal cortex (PHC) has been associated with many cognitive processes, including visuospatial processing and episodic memory. To characterize the role of PHC in cognition, a framework is required that unifies these disparate processes. An overarching account was proposed whereby the PHC is part of a network of brain regions that processes contextual associations. Contextual associations are the principal element underlying many higher-level cognitive processes, and thus are suitable for unifying the PHC literature. Recent findings are reviewed that provide support for the contextual associations account of PHC function. In addition to reconciling a vast breadth of literature, the synthesis presented expands the implications of the proposed account and gives rise to new and general questions about context and cognition., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

36. Amygdala responses to averted vs direct gaze fear vary as a function of presentation speed.

Author

Adams RB Jr, Franklin RG Jr, Kveraga K, Ambady N, Kleck RE, Whalen PJ, Hadjikhani N, and Nelson AJ

Subjects

Adolescent, Adult, Amygdala blood supply, Facial Expression, Female, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Oxygen blood, Photic Stimulation, Young Adult, Amygdala physiology, Emotions physiology, Escape Reaction physiology, Fear physiology, Fixation, Ocular

Abstract

We examined whether amygdala responses to rapidly presented fear expressions are preferentially tuned to averted vs direct gaze fear and conversely whether responses to more sustained presentations are preferentially tuned to direct vs averted gaze fear. We conducted three functional magnetic resonance imaging (fMRI) studies to test these predictions including: Study 1: a block design employing sustained presentations (1 s) of averted vs direct gaze fear expressions taken from the Pictures of Facial Affect; Study 2: a block design employing rapid presentations (300 ms) of these same stimuli and Study 3: a direct replication of these studies in the context of a single experiment using stimuli selected from the NimStim Emotional Face Stimuli. Together, these studies provide evidence consistent with an early, reflexive amygdala response tuned to clear threat and a later reflective response tuned to ambiguous threat.

Published

2012

37. Enabling global processing in simultanagnosia by psychophysical biasing of visual pathways.

Author

Thomas C, Kveraga K, Huberle E, Karnath HO, and Bar M

Subjects

Adult, Aged, Agnosia etiology, Brain Injuries complications, Brain Injuries pathology, Brain Mapping, Contrast Sensitivity, Female, Fluorodeoxyglucose F18, Humans, Male, Parietal Lobe diagnostic imaging, Parietal Lobe pathology, Photic Stimulation, Positron-Emission Tomography, Visual Pathways, Young Adult, Agnosia complications, Bias, Psychophysics, Psychophysiologic Disorders etiology

Abstract

A fundamental aspect of visual cognition is our disposition to see the 'forest before the trees'. However, damage to the posterior parietal cortex, a critical brain region along the dorsal visual pathway, can produce a neurological disorder called simultanagnosia, characterized by a debilitating inability to perceive the 'forest' but not the 'trees' (i.e. impaired global processing despite intact local processing). This impairment in perceiving the global shape persists even though the ventral visual pathway, the primary recognition pathway, is intact in these patients. Here, we enabled global processing in patients with simultanagnosia using a psychophysical technique, which allowed us to bias stimuli such that they are processed predominantly by the intact ventral visual pathway. Our findings reveal that the impairment in global processing that characterizes simultanagnosia stems from a disruption in the processing of low-spatial frequencies through the dorsal pathway. These findings advance our understanding of the relationship between visuospatial attention and perception and reveal the neural mechanism mediating the disposition to see the 'forest before the trees'.

Published

2012

38. Early onset of neural synchronization in the contextual associations network.

Author

Kveraga K, Ghuman AS, Kassam KS, Aminoff EA, Hämäläinen MS, Chaumon M, and Bar M

Subjects

Adult, Brain Mapping, Female, Hippocampus, Humans, Magnetic Resonance Imaging, Magnetoencephalography, Male, Prefrontal Cortex, Reaction Time physiology, Time Factors, Young Adult, Electroencephalography Phase Synchronization physiology, Recognition, Psychology physiology, Visual Perception physiology

Abstract

Objects are more easily recognized in their typical context. However, is contextual information activated early enough to facilitate the perception of individual objects, or is contextual facilitation caused by postperceptual mechanisms? To elucidate this issue, we first need to study the temporal dynamics and neural interactions associated with contextual processing. Studies have shown that the contextual network consists of the parahippocampal, retrosplenial, and medial prefrontal cortices. We used functional MRI, magnetoencephalography, and phase synchrony analyses to compare the neural response to stimuli with strong or weak contextual associations. The context network was activated in functional MRI and preferentially synchronized in magnetoencephalography (MEG) for stimuli with strong contextual associations. Phase synchrony increased early (150-250 ms) only when it involved the parahippocampal cortex, whereas retrosplenial-medial prefrontal cortices synchrony was enhanced later (300-400 ms). These results describe the neural dynamics of context processing and suggest that context is activated early during object perception.

Published

2011

39. Culture, gaze and the neural processing of fear expressions.

Author

Adams RB Jr, Franklin RG Jr, Rule NO, Freeman JB, Kveraga K, Hadjikhani N, Yoshikawa S, and Ambady N

Subjects

Asian People, Communication, Cross-Cultural Comparison, Emotions, Female, Humans, Image Interpretation, Computer-Assisted, Male, Photic Stimulation, White People, Young Adult, Culture, Facial Expression, Fear psychology, Fixation, Ocular physiology, Social Perception

Abstract

The direction of others' eye gaze has important influences on how we perceive their emotional expressions. Here, we examined differences in neural activation to direct- versus averted-gaze fear faces as a function of culture of the participant (Japanese versus US Caucasian), culture of the stimulus face (Japanese versus US Caucasian), and the relation between the two. We employed a previously validated paradigm to examine differences in neural activation in response to rapidly presented direct- versus averted-fear expressions, finding clear evidence for a culturally determined role of gaze in the processing of fear. Greater neural responsivity was apparent to averted- versus direct-gaze fear in several regions related to face and emotion processing, including bilateral amygdalae, when posed on same-culture faces, whereas greater response to direct- versus averted-gaze fear was apparent in these same regions when posed on other-culture faces. We also found preliminary evidence for intercultural variation including differential responses across participants to Japanese versus US Caucasian stimuli, and to a lesser degree differences in how Japanese and US Caucasian participants responded to these stimuli. These findings reveal a meaningful role of culture in the processing of eye gaze and emotion, and highlight their interactive influences in neural processing.

Published

2010

40. Cross-cultural reading the mind in the eyes: an fMRI investigation.

Author

Adams RB Jr, Rule NO, Franklin RG Jr, Wang E, Stevenson MT, Yoshikawa S, Nomura M, Sato W, Kveraga K, and Ambady N

Subjects

Adolescent, Adult, Asian People, Brain Mapping, Eye, Female, Humans, Magnetic Resonance Imaging, Male, Prefrontal Cortex anatomy & histology, Prefrontal Cortex physiology, Reaction Time physiology, Temporal Lobe anatomy & histology, White People, Young Adult, Cross-Cultural Comparison, Social Perception, Temporal Lobe physiology, Theory of Mind physiology

Abstract

The ability to infer others' thoughts, intentions, and feelings is regarded as uniquely human. Over the last few decades, this remarkable ability has captivated the attention of philosophers, primatologists, clinical and developmental psychologists, anthropologists, social psychologists, and cognitive neuroscientists. Most would agree that the capacity to reason about others' mental states is innately prepared, essential for successful human social interaction. Whether this ability is culturally tuned, however, remains entirely uncharted on both the behavioral and neural levels. Here we provide the first behavioral and neural evidence for an intracultural advantage (better performance for same- vs. other-culture) in mental state decoding in a sample of native Japanese and white American participants. We examined the neural correlates of this intracultural advantage using fMRI, revealing greater bilateral posterior superior temporal sulci recruitment during same- versus other-culture mental state decoding in both cultural groups. These findings offer preliminary support for cultural consistency in the neurological architecture subserving high-level mental state reasoning, as well as its differential recruitment based on cultural group membership.

Published

2010

41. Early (M170) activation of face-specific cortex by face-like objects.

Author

Hadjikhani N, Kveraga K, Naik P, and Ahlfors SP

Subjects

Adult, Brain Mapping, Female, Humans, Magnetoencephalography, Male, Brain physiology, Face, Pattern Recognition, Visual physiology

Abstract

The tendency to perceive faces in random patterns exhibiting configural properties of faces is an example of pareidolia. Perception of 'real' faces has been associated with a cortical response signal arising at approximately 170 ms after stimulus onset, but what happens when nonface objects are perceived as faces? Using magnetoencephalography, we found that objects incidentally perceived as faces evoked an early (165 ms) activation in the ventral fusiform cortex, at a time and location similar to that evoked by faces, whereas common objects did not evoke such activation. An earlier peak at 130 ms was also seen for images of real faces only. Our findings suggest that face perception evoked by face-like objects is a relatively early process, and not a late reinterpretation cognitive phenomenon.

Published

2009

42. Top-down predictions in the cognitive brain.

Author

Kveraga K, Ghuman AS, and Bar M

Subjects

Animals, Computational Biology, Consciousness physiology, Humans, Probability Learning, Psychological Theory, Adaptation, Psychological physiology, Association Learning physiology, Brain physiology, Cognition physiology, Problem Solving physiology

Abstract

The human brain is not a passive organ simply waiting to be activated by external stimuli. Instead, we propose that the brain continuously employs memory of past experiences to interpret sensory information and predict the immediately relevant future. The basic elements of this proposal include analogical mapping, associative representations and the generation of predictions. This review concentrates on visual recognition as the model system for developing and testing ideas about the role and mechanisms of top-down predictions in the brain. We cover relevant behavioral, computational and neural aspects, explore links to emotion and action preparation, and consider clinical implications for schizophrenia and dyslexia. We then discuss the extension of the general principles of this proposal to other cognitive domains.

Published

2007

43. Multimodal access to verbal name codes.

Author

Berryhill M, Kveraga K, Webb L, and Hughes HC

Subjects

Cognition, Humans, Reaction Time, Visual Perception, Models, Psychological, Speech Perception

Abstract

Congruent information conveyed over different sensory modalities often facilitates a variety of cognitive processes, including speech perception (Sumby & Pollack, 1954). Since auditory processing is substantially faster than visual processing, auditory-visual integration can occur over a surprisingly wide temporal window (Stein, 1998). We investigated the processing architecture mediating the integration of acoustic digit names with corresponding symbolic visual forms. The digits "1" or "2" were presented in auditory, visual, or bimodal format at several stimulus onset asynchronies (SOAs; 0, 75, 150, and 225 msec). The reaction times (RTs) for echoing unimodal auditory stimuli were approximately 100 msec faster than the RTs for naming their visual forms. Correspondingly, bimodal facilitation violated race model predictions, but only at SOA values greater than 75 msec. These results indicate that the acoustic and visual information are pooled prior to verbal response programming. However, full expression of this bimodal summation is dependent on the central coincidence of the visual and auditory inputs. These results are considered in the context of studies demonstrating multimodal activation of regions involved in speech production.

Published

2007

44. Effects of stimulus-response uncertainty on saccades to near-threshold targets.

Author

Kveraga K and Hughes HC

Subjects

Adult, Contrast Sensitivity physiology, Humans, Lighting, Neuropsychological Tests, Photic Stimulation, Time Factors, Fixation, Ocular physiology, Orientation physiology, Reaction Time physiology, Saccades physiology, Space Perception physiology

Abstract

Kveraga et al. (2002, Exp Brain Res 146(3):307-14) reported that saccade latencies are immune to the effects of stimulus-response uncertainty and constitute one of the few response systems that violate Hick's law. Similar effects have been reported for keypresses triggered by vibrations of the fingertips, but robust uncertainty effects were subsequently revealed using weak, low-frequency vibrations (Ten Hoopen et al. 1982, Acta Psychol 50:143-157). We wondered whether immunity of saccadic responses would demonstrate a similar intensity-dependency and therefore re-examined the effects of response entropy on saccade latencies using near-threshold visual stimuli. Saccadic latencies remained independent of stimulus-response uncertainty, indicating that saccadic motor programming is unaffected by the duration of the target detection process.

Published

2005

45. Effects of directional uncertainty on visually-guided joystick pointing.

Author

Berryhill M, Kveraga K, and Hughes HC

Subjects

Adult, Choice Behavior, Conditioning, Classical, Female, Humans, Male, Reaction Time, Video Games, Visual Perception

Abstract

Reaction times generally follow the predictions of Hick's law as stimulus-response uncertainty increases, although notable exceptions include the oculomotor system. Saccadic and smooth pursuit eye movement reaction times are independent of stimulus-response uncertainty. Previous research showed that joystick pointing to targets, a motor analog of saccadic eye movements, is only modestly affected by increased stimulus-response uncertainty; however, a no-uncertainty condition (simple reaction time to 1 possible target) was not included. Here, we re-evaluate manual joystick pointing including a no-uncertainty condition. Analysis indicated simple joystick pointing reaction times were significantly faster than choice reaction times. Choice reaction times (2, 4, or 8 possible target locations) only slightly increased as the number of possible targets increased. These data suggest that, as with joystick tracking (a motor analog of smooth pursuit eye movements), joystick pointing is more closely approximated by a simple/choice step function than the log function predicted by Hick's law.

Published

2005

46. Smooth pursuit under stimulus-response uncertainty.

Author

Berryhill M, Kveraga K, Boucher L, and Hughes HC

Subjects

Adult, Female, Humans, Male, Photic Stimulation methods, Pursuit, Smooth physiology, Uncertainty

Abstract

Simple reaction times (RTs) are typically faster than choice reaction times and increase with uncertainty according to Hick's law. Here we show that smooth pursuit eye movement RTs show no effect of SR uncertainty while joystick tracking shows a step change between SRT and CRT, but no significant increases beyond two choices. The results suggest there is a benefit to pre-programming joystick tracking but not for smooth pursuit eye movements (SPEMs).

Published

2004

47. Saccades operate in violation of Hick's law.

Author

Kveraga K, Boucher L, and Hughes HC

Subjects

Humans, Linear Models, Models, Neurological, Photic Stimulation methods, Reaction Time physiology, Saccades physiology

Abstract

Hick's law states that response times (RTs) increase in proportion to the logarithm of the number of potential stimulus-response (S-R) alternatives. We hypothesized that time-consuming processes associated with response selection contribute significantly to this effect. We also hypothesized that the latency of saccades might not conform to Hick's law since visually guided saccades can be automatically selected using topographically organized pathways that convert spatially coded visual activity into spatially coded motor commands. We evaluated these hypotheses by examining three response modalities for their compliance with Hick's law: saccades directed to a visual target (prosaccades), saccades directed away from the target (antisaccades) and manual responses in which each digit was associated with a specific target location (key-press responses). Both antisaccades and key-press responses conformed to Hick's law but saccade latencies were completely unaffected by S-R uncertainty. The significance of these findings is considered in terms of the processes of response selection and premotor programming.

Published

2002

48. Ocular pursuit of predicted motion trajectories.

Author

Kveraga K, Fendrich R, and Hughes HC

Subjects

Humans, Neuropsychological Tests, Oculomotor Muscles innervation, Oculomotor Muscles physiology, Photic Stimulation, Predictive Value of Tests, Reaction Time physiology, Brain physiology, Motion Perception physiology, Orientation physiology, Psychomotor Performance physiology, Pursuit, Smooth physiology

Abstract

The initiation and maintenance of slow eye movements (SEMs) usually depend on the perception of a moving stimulus. However, the endogenous representation of predictable target motion can be sufficient to initiate and maintain brief episodes of SEM even when the stimulus is not present. In this note, we show that expectancies generated by predictable stimulus motion trajectories can also produce smooth deceleration, reversal of direction, and subsequent acceleration in these movements, and explore the limits of the predictive component of the SEM control system quantitatively.

Published

2001