Your search keyword '"Bergs R"' showing total 12 results

1. Alerted default mode: functional connectivity changes in the aftermath of social stress

Author

Clemens, B., Wagels, L., Bauchmuller, M., Bergs, R., Habel, U., Kohn, N., Clemens, B., Wagels, L., Bauchmuller, M., Bergs, R., Habel, U., and Kohn, N.

Abstract

Contains fulltext : 174396.pdf (publisher's version ) (Open Access), Stress affects the brain at a network level: the salience network is supposedly upregulated, while at the same time the executive control network is downregulated. While theoretically described, the effects in the aftermath of stress have thus far not been tested empirically. Here, we compared for the first time resting-state functional connectivity in a large sample of healthy volunteers before and after a mild social stressor. Following the theoretical prediction, we focused on connectivity of the salience network (SN), the executive control network (ECN) and the default mode network (DMN). The DMN exhibited increased resting-state functional connectivity following the cyberball task to the key nodes of the SN, namely the dorsal anterior cingulate cortex (dACC) and the anterior insula, as well as sensorimotor regions and higher-order visual areas. We conclude that this increased connectivity of the DMN with key nodes of the SN and regions responsible for preparatory motor activity and visual motion processing indicates a shift towards an 'alerted default mode' in the aftermath of stress. This brain response may be triggered or aggravated by (social) stress induced by the cyberball task, enabling individuals to better reorient attention, detect salient external stimuli, and deal with the emotional and affective consequences of stress.

Published

2017

2. Contextual exclusion processing: an fMRI study of rejection in a performance-related context

Author

Wagels, L., Bergs, R., Clemens, B., Bauchmuller, M., Gur, R.C., Schneider, F., Habel, U., Kohn, N., Wagels, L., Bergs, R., Clemens, B., Bauchmuller, M., Gur, R.C., Schneider, F., Habel, U., and Kohn, N.

Abstract

Item does not contain fulltext, Social stress has a major detrimental impact on subjective well-being. Previous research mainly focused on two methods to induce and measure social stress: social exclusion and performance evaluation. For social exclusion researchers frequently focused on the Cyberball task, which in contrast to many psychosocial stress paradigms does not include a performance component. The aim of the current study was to establish an optimized psychosocial stress paradigm by combining both, social exclusion as well as performance evaluation within a single fMRI paradigm. We implemented a modification of the Cyberball task including a performance game (with exclusion and inclusion periods) in addition to the already established exclusion and inclusion periods. This indeed resulted in increased subjective stress in the performance game. Hence, the modified Cyberball version seems to be superior in mapping relevant neural social stress correlates more pronounced and reliably. Exclusion within the performance-related context contrasted to the unmodified exclusion was associated with higher activation in the dorsal anterior cingulate cortex and the anterior insula. Moreover, the modified exclusion reflected greater social processing in the precuneus, several temporo-parietal and medial prefrontal areas, as suggested by the additional task aspects of social evaluation and social perspective taking. The findings emphasize that public negative evaluation is effective in substantially enlarging and potentiating the distressing effect of exclusion on a subjective as well as on a neural level. This may have a great potential for further experimental research on social stress.

Published

2017

3. Chemosensory anxiety cues enhance the perception of fearful faces - An fMRI study

Author

Wudarczyk, O.A., Kohn, N., Bergs, R., Goerlich, K.S., Gur, R.E., Turetsky, B., Schneider, F., Habel, U., Wudarczyk, O.A., Kohn, N., Bergs, R., Goerlich, K.S., Gur, R.E., Turetsky, B., Schneider, F., and Habel, U.

Abstract

Item does not contain fulltext, Recent evidence suggests that humans can communicate emotion via chemosensory signals. Olfactory cues signaling anxiety can bias the perception of ambiguous stimuli, but the underlying neurobiological mechanisms of this effect are currently unknown. Here, we investigated the brain responses to subtle changes in facial expressions in response to anxiety chemosensory cues. Ten healthy individuals donated their sweat in two situations: while anticipating an important oral examination (anxiety condition) and during physical exercise (control condition). Subsequently, 24 participants completed a parametrically morphed (neutral to fearful) emotion recognition task under exposure to the olfactory cues of anxiety and sports, in the fMRI scanner. Behaviorally, the participants rated more discernible fearful faces as more fearful and neutral faces as more neutral under exposure to the anxiety cues. For brain response, under exposure to the anxiety cues, increased fearfulness of the face corresponded to increased activity in the left insula and the left middle occipital gyrus extending into fusiform gyrus. Moreover, with higher subjective ratings of facial fearfulness, participants additionally showed increased activity in the left hippocampus. These results suggest that chemosensory anxiety cues facilitate processing of socially relevant fearful stimuli and boost memory retrieval due to enhanced emotional context.

Published

2016

4. Chemosensory anxiety cues moderate the experience of social exclusion - an fMRI investigation with Cyberball

Author

Wudarczyk, O.A., Kohn, N., Bergs, R., Gur, R.E., Turetsky, B., Schneider, F., Habel, U., Wudarczyk, O.A., Kohn, N., Bergs, R., Gur, R.E., Turetsky, B., Schneider, F., and Habel, U.

Abstract

Contains fulltext : 152014.pdf (publisher's version ) (Open Access), Recent evidence suggests that the experience of stress can be communicated between individuals via chemosensory cues. Little is known, however, about the impact of these cues on neurophysiological responses during a socially threatening situation. In the current investigation we implemented a widely used paradigm to study social exclusion-Cyberball-to examine whether chemosensory cues signaling anxiety modulate the neuronal effects of ostracism. In a double-blind, within-subjects design, 24 healthy, normosmic participants were presented with chemosensory cues of anxiety (or control samples) and completed the Cyberball task while in a 3T fMRI scanner. Axillary sweat collected from male students awaiting an oral examination served as the anxiety cues while the chemosensory control stimuli consisted of sweat collected from the same individuals participating in an ergometer training session. The neuroimaging data revealed that under the control chemosensory condition, exclusion from Cyberball was associated with significantly higher orbitofrontal cortex and anterior cingulate cortex activity, which is consistent with previous studies in the field. However, when participants were primed with the anxiety sweat, the activity in these regions was not observed. Further, under exposure to anxiety cues during ostracism the participants showed deactivations in brain regions involved in memory (hippocampus), social cognition (middle temporal gyrus, superior temporal gyrus) and processing of salience (inferior frontal gyrus). These results suggest that successful communication of anxiety via the chemosensory domain may moderate the experience of social exclusion. It is possible that the anxiety signals make it easier for the individuals to detach from the group, pointing to the communicative role of chemosensory anxiety cues in enhancing adjustment mechanisms in light of a distressing situation.

Published

2015

5. Metallkomplexe mit biologisch wichtigen Liganden, XCIII. Metallorganische Verbindungen von Cobalt(III), Rhodium(III), Iridium(III), Palladium(II) und Platin(II) mit Aza-Aminosaeurederivaten (Methylcarbazat, Semicarbazid, 2-Amino-3-dimethylaminopropansaeure)

Author

Bergs, R., Suenkel, K., Robl, C., and Beck, W.

Published

1997

6. Characterisation of multilayer ramp-type REBa~2Cu~3O~7~-~d structures by scanning probe microscopy and high-resolution electron microscopy

Author

Blank, D. H. A., Rijnders, A. J. H. M., Verhoeven, M. A. J., Bergs, R. M. H., Rogalla, H., Verbist, K., Lebedev, O. I., and Tendeloo, G. Van

Published

1997

7. Metallkomplexe mit biologisch wichtigen Liganden. LXXVI. Halbsandwichkomplexe von Cobalt(III), Iridium(III) und Ruthenium(II) mit Amiden von 2-Hydroxyiminocarbonsaeuren

Author

Lampeka, R., Bergs, R., Bobadilla, Fernandez de, R., and Polborn, K.

Published

1995

8. Increased anger and stress and heightened connectivity between IFG and vmPFC in victims during social interaction.

Author

Röhr AK, Kohn N, Bergs R, Clemens B, Lampert A, Spehr M, Habel U, and Wagels L

Subjects

Humans, Emotions physiology, Brain physiology, Social Isolation psychology, Social Interaction, Anger physiology

Abstract

Self-identification as a victim of violence may lead to increased negative emotions and stress and thus, may change both structure and function of the underlying neural network(s). In a trans-diagnostic sample of individuals who identified themselves as victims of violence and a matched control group with no prior exposure to violence, we employed a social exclusion paradigm, the Cyberball task, to stimulate the re-experience of stress. Participants were partially excluded in the ball-tossing game without prior knowledge. We analyzed group differences in brain activity and functional connectivity during exclusion versus inclusion in exclusion-related regions. The victim group showed increased anger and stress levels during all conditions. Activation patterns during the task did not differ between groups but an enhanced functional connectivity between the IFG and the right vmPFC distinguished victims from controls during exclusion. This effect was driven by aberrant connectivity in victims during inclusion rather than exclusion, indicating that victimization affects emotional responses and inclusion-related brain connectivity rather than exclusion-related brain activity or connectivity. Victims may respond differently to the social context itself. Enhanced negative emotions and connectivity deviations during social inclusion may depict altered social processing and may thus affect social interactions., (© 2024. The Author(s).)

Published

2024

9. Lifetime Prevalence of Victimization and Perpetration as Related to Men's Health: Clinical Insights.

Author

Leiding D, Kaiser F, Hüpen P, Kirchhart R, Puiu AA, Steffens M, Bergs R, and Habel U

Abstract

Violence is a known risk factor for health problems. In this epidemiological study across 5,385 male patients, we investigate the prevalence of perpetrated violence, exposure to violence, their overlap and the relationship between violence, mental, and psychosomatic health, as well as adverse health behaviors, such as self-harming behavior and the consumption of drugs. Participants completed an anonymous questionnaire addressing violence experience (i.e., both expose and perpetration), age of victimization/perpetration, frequency, and perceived severity of violence exposure. We considered physical, psychological as well as sexual violence. Information on health status and adverse health behaviors complemented the data. Results showed that 48.4% of the sample reported having experienced violence (perpetration, victimization, or both). The victim-perpetrator overlap formed the largest group, in which the incidence of having experienced multiple types of violence was significantly higher compared to victims and perpetrators. The age-crime curve flattened more slowly with increasing age in this group. Although the perceived severity of exposure to violence is lower in the overlap group, its health status and adverse health behaviors were worse. Interventions should focus on this group since they constitute a burden for the healthcare system., Competing Interests: RB is employed by “Berufsförderungswerk Düren GmbH”. He was not employed there during the project period of the survey and evaluation of the study. The “Berufsförderungswerk Düren” was not involved in the study. The remaining 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 Leiding, Kaiser, Hüpen, Kirchhart, Puiu, Steffens, Bergs and Habel.)

Published

2022

10. Spatial dependence in the rank-size distribution of cities - weak but not negligible.

Author

Bergs R

Subjects

Cities, Humans, Spatial Analysis, Models, Econometric, Urbanization

Abstract

Power law distributions characterise several natural and social phenomena. Zipf's law for cities is one of those. The study views the question of whether that global regularity is independent of different spatial distributions of cities. For that purpose, a typical Zipfian rank-size distribution of cities is generated with random numbers. This distribution is then cast into two different settings of spatial coordinates. For the estimation, the variables rank and size are supplemented by considerations of spatial dependence within a spatial econometric approach. Results suggest that distance potentially matters. This finding is further corroborated by four country analyses even though estimates reveal only modest effects., Competing Interests: The author is affiliated with PRAC. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2021

11. Alerted default mode: functional connectivity changes in the aftermath of social stress.

Author

Clemens B, Wagels L, Bauchmüller M, Bergs R, Habel U, and Kohn N

Subjects

Adolescent, Adult, Brain Mapping, Executive Function, Female, Healthy Volunteers, Humans, Magnetic Resonance Imaging, Male, Young Adult, Brain physiology, Connectome, Nerve Net physiology, Stress, Psychological

Abstract

Stress affects the brain at a network level: the salience network is supposedly upregulated, while at the same time the executive control network is downregulated. While theoretically described, the effects in the aftermath of stress have thus far not been tested empirically. Here, we compared for the first time resting-state functional connectivity in a large sample of healthy volunteers before and after a mild social stressor. Following the theoretical prediction, we focused on connectivity of the salience network (SN), the executive control network (ECN) and the default mode network (DMN). The DMN exhibited increased resting-state functional connectivity following the cyberball task to the key nodes of the SN, namely the dorsal anterior cingulate cortex (dACC) and the anterior insula, as well as sensorimotor regions and higher-order visual areas. We conclude that this increased connectivity of the DMN with key nodes of the SN and regions responsible for preparatory motor activity and visual motion processing indicates a shift towards an 'alerted default mode' in the aftermath of stress. This brain response may be triggered or aggravated by (social) stress induced by the cyberball task, enabling individuals to better reorient attention, detect salient external stimuli, and deal with the emotional and affective consequences of stress.

Published

2017

12. Chemosensory anxiety cues moderate the experience of social exclusion - an fMRI investigation with Cyberball.

Author

Wudarczyk OA, Kohn N, Bergs R, Gur RE, Turetsky B, Schneider F, and Habel U

Abstract

Recent evidence suggests that the experience of stress can be communicated between individuals via chemosensory cues. Little is known, however, about the impact of these cues on neurophysiological responses during a socially threatening situation. In the current investigation we implemented a widely used paradigm to study social exclusion-Cyberball-to examine whether chemosensory cues signaling anxiety modulate the neuronal effects of ostracism. In a double-blind, within-subjects design, 24 healthy, normosmic participants were presented with chemosensory cues of anxiety (or control samples) and completed the Cyberball task while in a 3T fMRI scanner. Axillary sweat collected from male students awaiting an oral examination served as the anxiety cues while the chemosensory control stimuli consisted of sweat collected from the same individuals participating in an ergometer training session. The neuroimaging data revealed that under the control chemosensory condition, exclusion from Cyberball was associated with significantly higher orbitofrontal cortex and anterior cingulate cortex activity, which is consistent with previous studies in the field. However, when participants were primed with the anxiety sweat, the activity in these regions was not observed. Further, under exposure to anxiety cues during ostracism the participants showed deactivations in brain regions involved in memory (hippocampus), social cognition (middle temporal gyrus, superior temporal gyrus) and processing of salience (inferior frontal gyrus). These results suggest that successful communication of anxiety via the chemosensory domain may moderate the experience of social exclusion. It is possible that the anxiety signals make it easier for the individuals to detach from the group, pointing to the communicative role of chemosensory anxiety cues in enhancing adjustment mechanisms in light of a distressing situation.

Published

2015