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4. Spider phobics more easily see a spider in morphed schematic pictures

Author

Kolassa, IT, Buchmann, A, Lauche, R, Kolassa, S, Partchev, I, Miltner, WHR, Musial, F, Kolassa, IT, Buchmann, A, Lauche, R, Kolassa, S, Partchev, I, Miltner, WHR, and Musial, F

Abstract

Background: Individuals with social phobia are more likely to misinterpret ambiguous social situations as more threatening, i.e. they show an interpretive bias. This study investigated whether such a bias also exists in specific phobia. Methods: Individuals with spider phobiaor social phobia, spider aficionados and non-phobic controls saw morphed stimuli that gradually transformed from a schematic picture of a flower into a schematic picture of a spider by shifting the outlines of the petals until they turned into spider legs. Participants' task was to decide whether each stimulus was more similar to a spider, a flower or to neither object while EEG was recorded. Results: An interpretive bias was found in spider phobia on a behavioral level: with the first opening of the petals of the flower anchor, spider phobics rated the stimuli as more unpleasant and arousing than the control groups and showed an elevated latent trait to classify a stimulus as a spider and a response-time advantage for spider-like stimuli. No cortical correlates on the level of ERPs of this interpretive bias could be identified. However, consistent with previous studies, social and spider phobic persons exhibited generally enhanced visual P1 amplitudes indicative of hypervigilance in phobia. Conclusion: Results suggest an interpretive bias and generalization of phobia-specific responses in specific phobia. Similar effects have been observed in other anxiety disorders, such as social phobia and posttraumatic stress disorder. © 2007 Kolassa et al; licensee BioMed Central Ltd.

Published
2007

5. Dipole analysis of ultralate (C-fibres) evoked potentials after laser stimulation of tiny cutaneous surface areas in humans (vol 298, pg 41, 2001)

Author

UCL - Cliniques universitaires Saint-Luc, UCL - MD/IEPR - Institut d'éducation physique et de réadaptation, Opsommer, E, Plaghki, Léon, Weiss, T, Miltner, WHR, UCL - Cliniques universitaires Saint-Luc, UCL - MD/IEPR - Institut d'éducation physique et de réadaptation, Opsommer, E, Plaghki, Léon, Weiss, T, and Miltner, WHR

Published
2001

14. Neuroscientific results of experimental studies on the control of acute pain with hypnosis and suggested analgesia.

Author

Miltner WHR, Franz M, and Naumann E

Abstract

This narrative review summarizes a representative collection of electrophysiological and imaging studies on the neural processes and brain sources underlying hypnotic trance and the effects of hypnotic suggestions on the processing of experimentally induced painful events. It complements several reviews on the effect of hypnosis on brain processes and structures of chronic pain processing. Based on a summary of previous findings on the neuronal processing of experimentally applied pain stimuli and their effects on neuronal brain structures in healthy subjects, three neurophysiological methods are then presented that examine which of these neuronal processes and structures get demonstrably altered by hypnosis and can thus be interpreted as neuronal signatures of the effect of analgesic suggestions: (A) On a more global neuronal level, these are electrical processes of the brain that can be recorded from the cranial surface of the brain with magnetoencephalography (MEG) and electroencephalography (EEG). (B) On a second level, so-called evoked (EPs) or event-related potentials (ERPs) are discussed, which represent a subset of the brain electrical parameters of the EEG. (C) Thirdly, imaging procedures are summarized that focus on brain structures involved in the processing of pain states and belong to the main imaging procedures of magnetic resonance imaging (MRI/fMRI) and positron emission tomography (PET). Finally, these different approaches are summarized in a discussion, and some research and methodological suggestions are made as to how this research could be improved in the future., 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 © 2024 Miltner, Franz and Naumann.)

Published
2024
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15. Stimulation of peroneal nerves reveals maintained somatosensory representation in transtibial amputees.

Author

Ritter C, Geisler M, Blume KR, Nehrdich S, Hofmann GO, Koehler H, Miltner WHR, and Weiss T

Abstract

Introduction: Several studies have found changes in the organization of the primary somatosensory cortex (SI) after amputation. This SI reorganization was mainly investigated by stimulating neighboring areas to amputation. Unexpectedly, the somatosensory representation of the deafferented limb has rarely been directly tested., Methods: We stimulated the truncated peroneal nerve in 24 unilateral transtibial amputees and 15 healthy controls. The stimulation intensity was adjusted to make the elicited percept comparable between both stimulation sides. Neural sources of the somatosensory-evoked magnetic fields (SEFs) to peroneal stimulation were localized in the contralateral foot/leg areas of SI in 19 patients and 14 healthy controls., Results: We demonstrated the activation of functionally preserved cortical representations of amputated lower limbs. None of the patients reported evoked phantom limb pain (PLP) during stimulation. Stimulation that evoked perceptions in the foot required stronger intensities on the amputated side than on the intact side. In addition to this, stronger stimulation intensities were required for amputees than for healthy controls. Exploratorily, PLP intensity was neither associated with stimulation intensity nor dipole strength nor with differences in Euclidean distances (between SEF sources of the healthy peroneus and mirrored SEF sources of the truncated peroneus)., Discussion: Our results provide hope that the truncated nerve may be used to establish both motor control and somatosensory feedback via the nerve trunk when a permanently functional connection between the nerve trunk and the prosthesis becomes available., 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 © 2023 Ritter, Geisler, Blume, Nehrdich, Hofmann, Koehler, Miltner and Weiss.)

Published
2023
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16. Effects of emotional valence and intensity on cognitive and affective empathy after insula lesions.

Author

Holtmann O, Schloßmacher I, Franz M, Moenig C, Tenberge JG, Preul C, Schwindt W, Bruchmann M, Melzer N, Miltner WHR, and Straube T

Subjects
Humans, Functional Laterality, Mood Disorders etiology, Cognition, Empathy, Emotions
Abstract

The insula plays a central role in empathy. However, the complex structure of cognitive (CE) and affective empathy (AE) deficits following insular damage is not fully understood. In the present study, patients with insular lesions (n = 20) and demographically matched healthy controls (n = 24) viewed ecologically valid videos that varied in terms of valence and emotional intensity. The videos showed a person (target) narrating a personal life event. In CE conditions, subjects continuously rated the affective state of the target, while in AE conditions, they continuously rated their own affect. Mean squared error (MSE) assessed deviations between subject and target ratings. Patients differed from controls only in negative, low-intensity AE, rating their own affective state less negative than the target. This deficit was not related to trait empathy, neuropsychological or clinical parameters, or laterality of lesion. Empathic functions may be widely spared after insular damage in a naturalistic, dynamic setting, potentially due to the intact interpretation of social context by residual networks outside the lesion. The particular role of the insula in AE for negative states may evolve specifically in situations that bear higher uncertainty pointing to a threshold role of the insula in online ratings of AE., (© The Author(s) 2022. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2023
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17. Lateralized deficits in arousal processing after insula lesions: Behavioral and autonomic evidence.

Author

Holtmann O, Franz M, Mönig C, Tenberge JG, Schloßmacher I, Ivanova I, Preul C, Schwindt W, Melzer N, Miltner WHR, and Straube T

Subjects
Autonomic Nervous System, Humans, Arousal physiology, Emotions physiology
Abstract

A large body of evidence ascribes a pivotal role in emotion processing to the insular cortex. However, the complex structure and lateralization of emotional deficits following insular damage are not understood. Here, we investigated emotional ratings of valence and arousal and skin conductance responses (SCR) to a graded series of emotionally arousing scenes in patients with left (n = 10) or right (n = 9) insular damage and in healthy controls (n = 18). We found a significant reduction in overall SCRs, arousal ratings and valence extremity scores in right-lesioned patients, as compared to left-lesioned patients and healthy controls. The degree of right insular damage was significantly correlated with the degree of arousal, SCR and extremity attenuation. Additional analyses of correlations between subjective arousal ratings resp. SCR and normative arousal ratings revealed that both lesion groups had evaluative and physiological difficulties to discover changes in stimulus arousal. Although no group differences emerged on overall ratings of valence, analysis of correlations between subjective and normative valence ratings displayed markedly reduced accuracy in right-lesioned patients, as compared to left-lesioned patients and healthy controls. Our findings support the hypothesis that the left and right insulae subserve different functions in emotion processing, potentially due to asymmetrical representations of autonomic information in the left and right human forebrain. The right insula may serve as integral node for sympathetic arousal and cognitive-affective processing., Competing Interests: Declaration of competing interest None., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published
2022
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18. Trait anxiety predicts amygdalar responses during direct processing of threat-related pictures.

Author

Lin H, Miltner WHR, and Straube T

Subjects
Adult, Amygdala diagnostic imaging, Dangerous Behavior, Female, Humans, Magnetic Resonance Imaging, Male, Amygdala physiopathology, Anxiety physiopathology, Fear
Abstract

Previous studies on the associations between trait anxiety and amygdalar responses to threat stimuli have resulted in mixed findings, possibly due to sample characteristics, specific tasks, and analytical methods. The present functional magnetic resonance imaging (fMRI) study aimed to investigate linear or non-linear associations between trait anxiety and amygdalar responses in a sample of participants with low, medium, and high trait anxiety scores. During scanning, participants were presented with threat-related or neutral pictures and had either to solve an emotional task or an emotional-unrelated distraction task. Results showed that only during the explicit task trait anxiety was associated with right amygdalar responses to threat-related pictures as compared to neutral pictures. The best model was a cubic model with increased amygdala responses for very low and medium trait anxiety values but decreased amygdala activation for very high trait anxiety values. The findings imply a non-linear relation between trait anxiety and amygdala activation depending on task conditions., (© 2021. The Author(s).)

Published
2021
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19. Suggested visual blockade during hypnosis: Top-down modulation of stimulus processing in a visual oddball task.

Author

Franz M, Schmidt B, Hecht H, Naumann E, and Miltner WHR

Subjects
Adolescent, Adult, Attention physiology, Bayes Theorem, Behavior, Brain physiology, Brain Mapping, Electrodes, Electroencephalography, Female, Humans, Male, Neuroimaging, Young Adult, Evoked Potentials, Hypnosis, Vision, Ocular physiology, Visual Perception physiology
Abstract

Several theories of hypnosis assume that responses to hypnotic suggestions are implemented through top-down modulations via a frontoparietal network that is involved in monitoring and cognitive control. The current study addressed this issue re-analyzing previously published event-related-potentials (ERP) (N1, P2, and P3b amplitudes) and combined it with source reconstruction and connectivity analysis methods. ERP data were obtained from participants engaged in a visual oddball paradigm composed of target, standard, and distractor stimuli during a hypnosis (HYP) and a control (CON) condition. In both conditions, participants were asked to count the rare targets presented on a video screen. During HYP participants received suggestions that a wooden board in front of their eyes would obstruct their view of the screen. The results showed that participants' counting accuracy was significantly impaired during HYP compared to CON. ERP components in the N1 and P2 window revealed no amplitude differences between CON and HYP at sensor-level. In contrast, P3b amplitudes in response to target stimuli were significantly reduced during HYP compared to CON. Source analysis of the P3b amplitudes in response to targets indicated that HYP was associated with reduced source activities in occipital and parietal brain areas related to stimulus categorization and attention. We further explored how these brain sources interacted by computing time-frequency effective connectivity between electrodes that best represented frontal, parietal, and occipital sources. This analysis revealed reduced directed information flow from parietal attentional to frontal executive sources during processing of target stimuli. These results provide preliminary evidence that hypnotic suggestions of a visual blockade are associated with a disruption of the coupling within the frontoparietal network implicated in top-down control., Competing Interests: The authors have declared that no competing interests exist.

Published
2021
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20. Suggested deafness during hypnosis and simulation of hypnosis compared to a distraction and control condition: A study on subjective experience and cortical brain responses.

Author

Franz M, Schmidt B, Hecht H, Naumann E, and Miltner WHR

Subjects
Acoustic Stimulation, Adolescent, Adult, Attention physiology, Auditory Perception, Behavior physiology, Brain physiology, Brain physiopathology, Deafness diagnostic imaging, Deafness etiology, Electroencephalography methods, Evoked Potentials physiology, Evoked Potentials, Auditory physiology, Female, Hearing physiology, Humans, Male, Middle Aged, Speech Perception physiology, Young Adult, Brain diagnostic imaging, Cognition physiology, Deafness physiopathology, Hypnosis methods
Abstract

Hypnosis is a powerful tool to affect the processing and perception of stimuli. Here, we investigated the effects of hypnosis on the processing of auditory stimuli, the time course of event-related-potentials (ERP; N1 and P3b amplitudes) and the activity of cortical sources of the P3b component. Forty-eight participants completed an auditory oddball paradigm composed of standard, distractor, and target stimuli during a hypnosis (HYP), a simulation of hypnosis (SIM), a distraction (DIS), and a control (CON) condition. During HYP, participants were suggested that an earplug would obstruct the perception of tones and during SIM they should pretend being hypnotized and obstructed to hear the tones. During DIS, participants' attention was withdrawn from the tones by focusing participants' attention onto a film. In each condition, subjects were asked to press a key whenever a target stimulus was presented. Behavioral data show that target hit rates and response time became significantly reduced during HYP and SIM and loudness ratings of tones were only reduced during HYP. Distraction from stimuli by the film was less effective in reducing target hit rate and tone loudness. Although, the N1 amplitude was not affected by the experimental conditions, the P3b amplitude was significantly reduced in HYP and SIM compared to CON and DIS. In addition, source localization results indicate that only a small number of neural sources organize the differences of tone processing between the control condition and the distraction, hypnosis, and simulation of hypnosis conditions. These sources belong to brain areas that control the focus of attention, the discrimination of auditory stimuli, and the organization of behavioral responses to targets. Our data confirm that deafness suggestions significantly change auditory processing and perception but complete deafness is hard to achieve during HYP. Therefore, the term 'deafness' may be misleading and should better be replaced by 'hypoacusis'., Competing Interests: The authors have declared that no competing interests exist.

Published
2020
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21. Lateralized Deficits of Disgust Processing After Insula-Basal Ganglia Damage.

Author

Holtmann O, Bruchmann M, Mönig C, Schwindt W, Melzer N, Miltner WHR, and Straube T

Abstract

A growing body of evidence suggests a role of the insular cortex (IC) and the basal ganglia (BG) in the experience, expression, and recognition of disgust. However, human lesion research, probing this structure-function link, has yielded rather disparate findings in single cases of unilateral and bilateral damage to these areas. Comparative group approaches are needed to elucidate whether disgust-related deficits specifically follow damage to the IC-BG system, or whether there might be a differential hemispheric contribution to disgust processing. We examined emotional processing by means of a comprehensive emotional test battery in four patients with left- and four patients with right-hemispheric lesions to the IC-BG system as well as in 19 healthy controls. While single tests did not provide clear-cut separations of patient groups, composite scores indicated selective group effects for disgust. Importantly, left-lesioned patients presented attenuated disgust composites, while right-lesioned patients showed increased disgust composites, as compared to each other and controls. These findings propose a left-hemispheric basis of disgust, potentially due to asymmetrical representations of autonomic information in the human forebrain. The present study provides the first behavioral evidence of hemispheric lateralization of a specific emotion in the human brain, and contributes to neurobiological models of disgust., (Copyright © 2020 Holtmann, Bruchmann, Mönig, Schwindt, Melzer, Miltner and Straube.)

Published
2020
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22. Stimulus arousal drives amygdalar responses to emotional expressions across sensory modalities.

Author

Lin H, Müller-Bardorff M, Gathmann B, Brieke J, Mothes-Lasch M, Bruchmann M, Miltner WHR, and Straube T

Subjects
Adult, Amygdala diagnostic imaging, Auditory Cortex diagnostic imaging, Auditory Perception physiology, Facial Expression, Facial Recognition physiology, Female, Humans, Judgment physiology, Magnetic Resonance Imaging, Male, Neural Pathways diagnostic imaging, Neural Pathways physiology, Photic Stimulation, Visual Cortex diagnostic imaging, Young Adult, Amygdala physiology, Arousal physiology, Auditory Cortex physiology, Emotions physiology, Visual Cortex physiology
Abstract

The factors that drive amygdalar responses to emotionally significant stimuli are still a matter of debate - particularly the proneness of the amygdala to respond to negatively-valenced stimuli has been discussed controversially. Furthermore, it is uncertain whether the amygdala responds in a modality-general fashion or whether modality-specific idiosyncrasies exist. Therefore, the present functional magnetic resonance imaging (fMRI) study systematically investigated amygdalar responding to stimulus valence and arousal of emotional expressions across visual and auditory modalities. During scanning, participants performed a gender judgment task while prosodic and facial emotional expressions were presented. The stimuli varied in stimulus valence and arousal by including neutral, happy and angry expressions of high and low emotional intensity. Results demonstrate amygdalar activation as a function of stimulus arousal and accordingly associated emotional intensity regardless of stimulus valence. Furthermore, arousal-driven amygdalar responding did not depend on the visual and auditory modalities of emotional expressions. Thus, the current results are consistent with the notion that the amygdala codes general stimulus relevance across visual and auditory modalities irrespective of valence. In addition, whole brain analyses revealed that effects in visual and auditory areas were driven mainly by high intense emotional facial and vocal stimuli, respectively, suggesting modality-specific representations of emotional expressions in auditory and visual cortices.

Published
2020
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23. Wearing a bike helmet leads to less cognitive control, revealed by lower frontal midline theta power and risk indifference.

Author

Schmidt B, Kessler L, Holroyd CB, and Miltner WHR

Subjects
Adolescent, Adult, Female, Humans, Male, Young Adult, Bicycling physiology, Executive Function physiology, Frontal Lobe physiology, Head Protective Devices, Risk-Taking, Theta Rhythm physiology
Abstract

A recent study claims that participants wearing a bike helmet behave riskier in a computer-based risk task compared to control participants without a bike helmet. We hypothesized that wearing a bike helmet reduces cognitive control over risky behavior. To test our hypothesis, we recorded participants' EEG brain responses while they played a risk game developed in our laboratory. Previously, we found that, in this risk game, anxious participants showed greater levels of cognitive control as revealed by greater frontal midline theta power, which was associated with less risky decisions. Here, we predicted that cognitive control would be reduced in the helmet group, indicated by reduced frontal midline theta power, and that this group would prefer riskier options in the risk game. In line with our hypothesis, we found that participants in the helmet group showed significantly lower frontal midline theta power than participants in the control group, indicating less cognitive control. We did not replicate the finding of generally riskier behavior in the helmet group. Instead, we found that participants chose the riskier option in about half of trials, no matter how risky the other option was. Our results suggest that wearing a bike helmet reduces cognitive control, as revealed by reduced frontal midline theta power, leading to risk indifference when evaluating potential behaviors., (© 2019 The Authors. Psychophysiology published by Wiley Periodicals, Inc. on behalf of Society for Psychophysiological Research.)

Published
2019
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24. How words impact on pain.

Author

Ritter A, Franz M, Miltner WHR, and Weiss T

Subjects
Adult, Brain Mapping methods, Female, Humans, Male, Pain physiopathology, Pain Measurement, Young Adult, Brain physiopathology, Cues, Language, Magnetic Resonance Imaging methods, Pain psychology, Pain Perception physiology
Abstract

Introduction: The wording used before and during painful medical procedures might significantly affect the painfulness and discomfort of the procedures. Two theories might account for these effects: the motivational priming theory (Lang, 1995, American Psychologist, 50, 372) and the theory of neural networks (Hebb, 1949, The organization of behavior. New York, NY: Wiley; Pulvermuller, 1999, Behavioral and Brain Sciences, 22, 253; Pulvermüller and Fadiga, 2010, Nature Reviews Neuroscience, 11, 351)., Methods: Using fMRI, we investigated how negative, pain-related, and neutral words that preceded the application of noxious stimuli as priming stimuli affect the cortical processing and pain ratings of following noxious stimuli., Results: Here, we show that both theories are applicable: Stronger pain and stronger activation were observed in several brain areas in response to noxious stimuli preceded by both, negative and pain-related words, respectively, as compared to preceding neutral words, thus supporting motivational priming theory. Furthermore, pain ratings and activation in somatosensory cortices, primary motor cortex, premotor cortex, thalamus, putamen, and precuneus were even stronger for preceding pain-related than for negative words supporting the theory of neural networks., Conclusion: Our results explain the influence of wording on pain perception and might have important consequences for clinical work., (© 2019 The Authors. Brain and Behavior published by Wiley Periodicals, Inc.)

Published
2019
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25. What you give is what you get: Payment of one randomly selected trial induces risk-aversion and decreases brain responses to monetary feedback.

Author

Schmidt B, Keßler L, Hecht H, Hewig J, Holroyd CB, and Miltner WHR

Subjects
Adolescent, Adult, Decision Making physiology, Electroencephalography methods, Female, Humans, Male, Young Adult, Brain physiology, Feedback, Psychological physiology, Motivation physiology, Reward, Risk-Taking
Abstract

In economic studies, it is standard practice to pay out the reward of only one randomly selected trial (pay-one) instead of the total reward accumulated across trials (pay-all), assuming that both methods are equivalent. We tested this assumption by recording electrophysiological activity to reward feedback from participants engaged in a decision-making task under both a pay-one and a pay-all condition. We show that participants are approximately 12% more risk averse in the pay-one condition than in the pay-all condition. Furthermore, we observed that the electrophysiological response to monetary rewards, the reward positivity, is significantly reduced in the pay-one condition relative to the pay-all condition. The difference of brain responses is associated with the difference in risky behavior across conditions. We concluded that the two payment methods lead to significantly different results and are therefore not equivalent.

Published
2019
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26. Expectation of exercise in trained athletes results in a reduction of central processing to nociceptive stimulation.

Author

Geisler M, Eichelkraut L, Miltner WHR, and Weiss T

Subjects
Adult, Affect physiology, Cerebral Cortex physiology, Humans, Magnetic Resonance Imaging methods, Male, Middle Aged, Prefrontal Cortex physiology, Psychomotor Agitation, Running, Athletes, Exercise physiology, Exercise Therapy, Motivation physiology, Pain Perception physiology
Abstract

A single endurance exercise session was shown to lead to a reduction of pain perception and an elevation of mood. We hypothesized that athletes, who regularly practice endurance, might also induce changes in mood and pain processing in expectation of an endurance session. We compared the expectation effects of a 2-h-run on mood and pain processing to a run-free control day (RFC). Fifteen trained runners were assessed with repeated painful and nonpainful pinprick stimulation in a functional magnetic resonance imaging (fMRI) scanner prior to a 2-h-run and at RFC. Pain ratings, pressure pain stimulus-response functions, and euphoria ratings were also assessed. There were no mean expectation effects on any of the behavioral measures. However, highly trained athletes needed more pressure to evoke a pain rating of 46 pre-run vs. RFC but were less euphoric pre-run vs. RFC. Furthermore, analysis of brain activities to painful stimuli applied immediately before the 2-h-run compared to RFC revealed increased activation in the medial prefrontal cortex (mPFC) and reduced activation in posterior insula. Additionally, less trained athletes had reduced activation in posterior insula to painful stimulation pre-run vs. RFC compared to highly trained athletes. The results suggest reduced central pain processing in expectation of an endurance run and an association between the amount of the expectation effect and training frequency which differs depending on the stimuli applied., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2019
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27. Anxious gambling: Anxiety is associated with higher frontal midline theta predicting less risky decisions.

Author

Schmidt B, Kanis H, Holroyd CB, Miltner WHR, and Hewig J

Subjects
Adult, Evoked Potentials, Female, Games, Experimental, Humans, Male, Personality Inventory, Young Adult, Anxiety, Decision Making physiology, Executive Function physiology, Frontal Lobe physiology, Gambling, Theta Rhythm
Abstract

In this study, we address the effect of anxiety measured with the State-Trait Anxiety Inventory (STAI) on EEG and risk decisions. We selected 20 high and 20 low anxious participants based on their STAI trait scores in the upper or lower quartile of the norm distribution and implemented a risk game developed in our laboratory. We investigate if high anxious individuals exert more cognitive control, reflected in higher frontal midline theta (FMT) power when they make a risky decision, and if they act less risky compared to low anxious individuals. Participants played a risk game while we recorded their brain responses via EEG. High anxious participants played less risky compared to low anxious participants. Further, high anxious participants showed higher FMT power immediately before they chose one of two risk options, suggesting higher cognitive control during the decision time compared to low anxious participants. Via a mediation analysis, we show that the effect of anxiety on risk behavior is fully mediated by FMT power. Further, questionnaire responses revealed that high anxious participants rated risk situations as riskier compared to low anxious participants. We conclude that anxious individuals perceive risky situations as riskier and thus exert more cognitive control during their risk choices, reflected in higher FMT power, which leads to less risky decisions., (© 2018 Society for Psychophysiological Research.)

Published
2018
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28. The role of the cerebellum for feedback processing and behavioral switching in a reversal-learning task.

Author

Peterburs J, Hofmann D, Becker MPI, Nitsch AM, Miltner WHR, and Straube T

Subjects
Adult, Brain Mapping, Cerebellum diagnostic imaging, Female, Humans, Magnetic Resonance Imaging, Male, Reward, Young Adult, Cerebellum physiology, Cognition physiology, Feedback, Psychological physiology, Reversal Learning physiology
Abstract

Previous studies have reported cerebellar activations during error and reward processing. The present study investigated if the cerebellum differentially processes feedback depending on changes in response strategy during reversal learning, as is conceivable given its internal models for movement and thought. Negative relative to positive feedback in an fMRI-based reversal learning task was hypothesized to be associated with increased cerebellar activations. Moreover, increased activations were expected for negative feedback followed by a change in response strategy compared to negative feedback not followed by such a change, and for first positive feedback after compared to final negative feedback before a change, due to updating of internal models. As predicted, activation in lobules VI and VIIa/Crus I was increased for negative relative to positive feedback, and for final negative feedback before a change in response strategy relative to negative feedback not associated with a change. Moreover, activation was increased for first positive feedback after relative to final negative feedback before a change. These findings are consistent with updating of cerebellar internal models to accommodate new behavioral strategies. Recruitment of posterior regions in reversal learning is in line with the cerebellar functional topography, with posterior regions involved in complex motor and cognitive functions., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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30. Effects of Temporary Functional Deafferentation in Chronic Stroke Patients: Who Profits More?

Author

Sens E, Franz M, Preul C, Meissner W, Witte OW, Miltner WHR, and Weiss T

Subjects
Brain pathology, Chronic Disease psychology, Female, Humans, Male, Skin Cream, Stroke psychology, Touch Perception, Anesthetics administration & dosage, Psychomotor Performance, Stroke diagnosis, Stroke Rehabilitation
Abstract

Temporary functional deafferentation (TFD) by an anesthetic cream on the stroke-affected forearm was shown to improve sensorimotor abilities of stroke patients. The present study investigated different predictors for sensorimotor improvements during TFD and indicated outcome differences between patients grouped in subcortical lesions only and lesions with any cortical involvement. Thirty-four chronic stroke patients were temporarily deafferented on the more affected forearm by an anesthetic cream. Somatosensory performance was assessed using von Frey Hair and grating orientation task; motor performance was assessed by a shape-sorter-drum task. Seven potential predictors were entered into three linear multiple regression models. Furthermore, effects of TFD on outcome variables for the two groups (cortical versus subcortical lesion) were compared. Sex and sensory deficit were significant predictors for changes in motor function while age accounted for changes in grating orienting task. Males, patients with a stronger sensory deficit, and older patients profited more. None of the potential predictors made significant contributions to changes in threshold for touch. Furthermore, there were no differences in sensorimotor improvement between lesion site groups. The effects of TFD together with the low predictability of the investigated parameters suggest that characteristics of patients alone are not suitable to exclude some patients from TFD.

Published
2018
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31. Quantitative sensory testing after macroreplantation: evidence for a specific somatosensory profile.

Author

Blume KR, Racz J, Franz M, Dietrich C, Puta C, Friedel R, Hofmann GO, Miltner WHR, and Weiss T

Subjects
Adolescent, Adult, Aged, Amputation, Traumatic complications, Amputation, Traumatic surgery, Female, Humans, Hyperalgesia etiology, Male, Middle Aged, Neuralgia etiology, Physical Stimulation, Touch Perception physiology, Young Adult, Amputation, Traumatic physiopathology, Hyperalgesia physiopathology, Neural Conduction physiology, Neuralgia physiopathology, Pain Threshold physiology, Recovery of Function physiology
Abstract

A comprehensive functional recovery is one of the criteria for successful replantation of an amputated limb. Functionality of a replanted limb is strongly dependent on its regained sensibility. In previous studies concerning the sensibility of replanted limbs, only a few somatosensory submodalities were examined in small samples. The purpose of this study is to provide a full pattern of somatosensory symptoms after replantation. Quantitative sensory testing was performed according to a standardized protocol in a sample of 15 patients who underwent replantation of their upper limb proximal to the radiocarpal joint (macroreplantation). Results indicate that most of these patients showed a specific somatosensory profile characterized by thermal and mechanical hypoesthesia and hyperalgesia in response to pressure pain, whereas no single case of hyperalgesia to heat pain occurred. This distinct profile of impaired somatosensation shares some features of the somatosensory profile of neuropathic pain syndromes. Patients' limbs that were replanted many years before the present quantitative sensory testing showed more sensory deficits than patients with more recent replantations. This knowledge might be helpful in the development of more specific and more successful rehabilitation programs with replanted patients and improves the behavioral function of the replanted limb.

Published
2018
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32. Referred cramping phantom hand pain elicited in the face and eliminated by peripheral nerve block.

Author

Dietrich C, Nehrdich S, Zimmer A, Ritter A, Hofmann GO, Miltner WHR, and Weiss T

Subjects
Amputees, Anesthetics, Local pharmacology, Brachial Plexus drug effects, Bupivacaine pharmacology, Female, Humans, Magnetic Resonance Imaging, Middle Aged, Phantom Limb diagnostic imaging, Somatosensory Cortex diagnostic imaging, Touch Perception drug effects, Face physiology, Hand physiopathology, Muscle Cramp physiopathology, Nerve Block methods, Pain, Referred physiopathology, Phantom Limb physiopathology, Somatosensory Cortex physiopathology, Touch Perception physiology
Abstract

Phantom limb pain is a restricting condition for a substantial number of amputees with quite different characteristics of pain. Here, we report on a forearm amputee with constant phantom pain in the hand, in whom we could regularly elicit the rare phenomenon of referred cramping phantom pain by touching the face. To clarify the underlying mechanisms, we followed the cramp during the course of an axillary blockade of the brachial plexus. During the blockade, both phantom pain and the referred cramp were abolished, while a referred sensation of "being touched at the phantom" persisted. Furthermore, to identify the cortical substrate, we elicited the cramp during functional magnetic imaging. Imaging revealed that referred cramping phantom limb pain was associated with brain activation of the hand representation in the primary sensorimotor cortex. The results support the hypothesis that referred cramping phantom limb pain in this case is associated with a substantial brain activation in the hand area of the deafferented sensorimotor cortex. However, this alone is not sufficient to elicit referred cramping phantom limb pain. Peripheral inputs, both, from the arm nerves affected by the amputation and from the skin in the face at which the referred cramp is evoked, are a precondition for referred cramping phantom limb pain to occur, at least in this case.

Published
2018
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34. Leg Prosthesis With Somatosensory Feedback Reduces Phantom Limb Pain and Increases Functionality.

Author

Dietrich C, Nehrdich S, Seifert S, Blume KR, Miltner WHR, Hofmann GO, and Weiss T

Abstract

Phantom limb pain (PLP) develops in most patients with lower limb amputation. Changes in the peripheral and central nervous system (CNS) are hypothesized to contribute to PLP. Based on ideas to modify neural reorganization within the CNS, the aim of the study was to test, whether prostheses with somatosensory feedback might help to reduce PLP, and increase the functionality of movement with a prosthesis. We therefore equipped the prostheses of 14 lower leg amputees with a simple to use feedback system that provides electrocutaneous feedback to patients' thigh whenever the foot and toes of the prosthesis touch the ground. Two weeks of training with such a feedback prosthesis reduced PLP, increased the functional use of the prosthesis, and increased patients' satisfaction with prosthesis use. We found a significant overall reduction of PLP during the course of the training period. Most patients reported lower PLP intensities at the end of the day while before training they have usually experienced maximal PLP intensities. Furthermore, patients also reported larger walking distances and more stable walking and better posture control while walking on and across a bumpy or soft ground. After training, the majority of participants (9/14) preferred such a feedback system over no feedback. This study extends former observations of a similar training procedure with arm amputees who used a similar feedback training to improve the functionality of an arm prosthesis in manipulating and grasping objects.

Published
2018
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35. Altered activation of the ventral striatum under performance-related observation in social anxiety disorder.

Author

Becker MPI, Simon D, Miltner WHR, and Straube T

Subjects
Adult, Female, Gyrus Cinguli diagnostic imaging, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Phobia, Social diagnostic imaging, Ventral Striatum diagnostic imaging, Brain Mapping methods, Feedback, Psychological physiology, Gyrus Cinguli physiopathology, Phobia, Social physiopathology, Psychomotor Performance physiology, Time Perception physiology, Ventral Striatum physiopathology
Abstract

Background: Social anxiety disorder (SAD) is characterized by fear of social and performance situations. The consequence of scrutiny by others for the neural processing of performance feedback in SAD is unknown., Methods: We used event-related functional magnetic resonance imaging to investigate brain activation to positive, negative, and uninformative performance feedback in patients diagnosed with SAD and age-, gender-, and education-matched healthy control subjects who performed a time estimation task during a social observation condition and a non-social control condition: while either being monitored or unmonitored by a body camera, subjects received performance feedback after performing a time estimation that they could not fully evaluate without external feedback., Results: We found that brain activation in ventral striatum (VS) and midcingulate cortex was modulated by an interaction of social context and feedback type. SAD patients showed a lack of social-context-dependent variation of feedback processing, while control participants showed an enhancement of brain responses specifically to positive feedback in VS during observation., Conclusions: The present findings emphasize the importance of social-context processing in SAD by showing that scrutiny prevents appropriate reward-processing-related signatures in response to positive performances in SAD.

Published
2017
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36. Dermatomal Organization of SI Leg Representation in Humans: Revising the Somatosensory Homunculus.

Author

Dietrich C, Blume KR, Franz M, Huonker R, Carl M, Preißler S, Hofmann GO, Miltner WHR, and Weiss T

Subjects
Adult, Brain Mapping, Female, Humans, Magnetoencephalography methods, Male, Physical Stimulation methods, Young Adult, Evoked Potentials, Somatosensory physiology, Foot physiology, Somatosensory Cortex physiology
Abstract

Penfield and Rasmussen's homunculus is the valid map of the neural body representation of nearly each textbook of biology, physiology, and neuroscience. The somatosensory homunculus places the foot representation on the mesial surface of the postcentral gyrus followed by the representations of the lower leg and the thigh in superio-lateral direction. However, this strong homuncular organization contradicts the "dermatomal" organization of spinal nerves. We used somatosensory-evoked magnetic fields and source analysis to study the leg's neural representation in the primary somatosensory cortex (SI). We show that the representation of the back of the thigh is located inferior to the foot's representation in SI whereas the front of the thigh is located laterally to the foot's representation. This observation indicates that the localization of the leg in SI rather follows the dermatomal organization of spinal nerves than the typical map of neighboring body parts as depicted in Penfield and Rasmussen's illustration of the somatosensory homunculus., (© The Author 2017. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published
2017
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37. The Power of mind: Blocking visual perception by hypnosis.

Author

Schmidt B, Hecht H, Naumann E, and Miltner WHR

Subjects
Adult, Electroencephalography, Evoked Potentials, Female, Germany, Healthy Volunteers, Humans, Male, Young Adult, Hypnosis methods, Visual Perception
Abstract

The present study investigated the effects of suggestion on the processing of visual stimuli. Participants counted rare visual stimuli presented on a screen, once during a hypnosis condition where they were suggested that their vision of the screen is blocked by a virtual wooden board in front of their eyes and once during a control condition without suggestion. In the hypnosis condition, counting performance was about 20% worse than in the control condition. At the same time, the P3b amplitude of the event-related brain potential was about 37% reduced. Smaller P3b amplitudes were significantly associated with deficient counting performance, and this effect was largest in participants who reported the blockade as real. In contrast, earlier brain responses (N1, P2) that reflect basic processing of the visual stimuli were not affected by the suggested blockade. We conclude that the suggestion of the blockade affects later stages of visual perception, leaving early processes intact. This illustrates the impact of suggestions and the power of mind.

Published
2017
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38. Preliminary Evidence for Training-Induced Changes of Morphology and Phantom Limb Pain.

Author

Preißler S, Thielemann D, Dietrich C, Hofmann GO, Miltner WHR, and Weiss T

Abstract

The aim of this study was to investigate whether a special prosthetic training in phantom limb pain patients aimed at increasing the functional use of the prosthesis leads to neural morphological plasticity of brain structures and a reduction in phantom limb pain. For chronic pain disorders, it was shown that morphological alterations due to pain might become at least partially reversed by pain therapies. Phantom limb pain is a chronic pain disorder that is frequently followed by neural plasticity of anatomical brain structures. In our study, 10 patients with amputation of the upper limb participated in a two-week training with a myoelectric prosthesis with somatosensory feedback. Grip strength was fed back with electrocutaneous stimulus patterns applied to the stump. Phantom limb pain was assessed before and after the two-week training. Similarly, two T1 weighted MRI scans were conducted for longitudinal thickness analyses of cortical brain structures. As result of this treatment, patients experienced a reduction in phantom limb pain and a gain in prosthesis functionality. Furthermore, we found a change of cortical thickness in small brain areas in the visual stream and the post-central gyrus ipsilateral to the amputation indicating morphological alterations in brain areas involved in vision and pain processing.

Published
2017
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39. Look who's judging-Feedback source modulates brain activation to performance feedback in social anxiety.

Author

Peterburs J, Sandrock C, Miltner WHR, and Straube T

Subjects
Brain Mapping methods, Female, Humans, Male, Nerve Net physiopathology, Reproducibility of Results, Sensitivity and Specificity, Young Adult, Anxiety physiopathology, Arousal, Biofeedback, Psychology methods, Cerebral Cortex physiopathology, Feedback, Feedback, Physiological, Task Performance and Analysis
Abstract

It is as yet unknown if behavioral and neural correlates of performance monitoring in socially anxious individuals are affected by whether feedback is provided by a person or a computer. This fMRI study investigated modulation of feedback processing by feedback source (person vs. computer) in participants with high (HSA) (N=16) and low social anxiety (LSA) (N=16). Subjects performed a choice task in which they were informed that they would receive positive or negative feedback from a person or the computer. Subjective ratings indicated increased arousal and anxiety in HSA versus LSA, most pronounced for social and negative feedback. FMRI analyses yielded hyperactivation in ventral medial prefrontal cortex (vmPFC)/anterior cingulate cortex (ACC) and insula for social relative to computer feedback, and in mPFC/ventral ACC for positive relative to negative feedback in HSA as compared to LSA. These activation patterns are consistent with increased interoception and self-referential processing in social anxiety, especially during processing of positive feedback. Increased ACC activation in HSA to positive feedback may link to unexpectedness of (social) praise as posited in social anxiety disorder (SAD) psychopathology. Activation in rostral ACC showed a reversed pattern, with decreased activation to positive feedback in HSA, possibly indicating altered action values depending on feedback source and valence. The present findings corroborate a crucial role of mPFC for performance monitoring in social anxiety., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2016
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40. Interaction between stimulus intensity and perceptual load in the attentional control of pain.

Author

Romero YR, Straube T, Nitsch A, Miltner WHR, and Weiss T

Subjects
Adult, Catastrophization psychology, Child, Female, Hot Temperature adverse effects, Humans, Male, Nociceptors physiology, Reaction Time physiology, Attention physiology, Catastrophization physiopathology, Pain Perception physiology, Pain Threshold physiology, Psychomotor Performance physiology
Abstract

The interaction between intensity of nociceptive stimuli and cognitive load in a concomitant task is still a challenging and complex topic. Here, we investigated the interaction between top-down factors (i.e., perceptual load), induced by a visual task, and bottom-up factors (i.e., intensity of nociceptive stimuli that implicitly modifies saliency of input). Using a new experimental paradigm, in which perceptual load is varied while laser heat stimuli of different intensities are processed; we show a significant interaction between intensity of nociceptive stimuli and perceptual load on both pain ratings and task performance. High perceptual load specifically reduced intensity ratings of high intensity stimuli. However, under this condition, task performance was impaired, regardless of interindividual differences in motivation and pain catastrophizing. Thus, we showed that pain ratings can be reduced by increasing the load of attentional resources at the perceptual level of a non-pain-related task. Nevertheless, the disruptive effect of highly intensive nociceptive stimuli on the performance of the perceptual task was evident only under high load., (Copyright © 2012 International Association for the Study of Pain. Published by Elsevier B.V. All rights reserved.)

Published
2013
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41. Laser heat stimulation of tiny skin areas adds valuable information to quantitative sensory testing in postherpetic neuralgia.

Author

Franz M, Spohn D, Ritter A, Rolke R, Miltner WHR, and Weiss T

Subjects
Adult, Aged, Female, Heating methods, Humans, Male, Middle Aged, Reproducibility of Results, Sensitivity and Specificity, Lasers, Neuralgia, Postherpetic diagnosis, Neuralgia, Postherpetic physiopathology, Pain Measurement methods, Pain Threshold radiation effects, Skin physiopathology, Skin radiation effects
Abstract

Patients suffering from postherpetic neuralgia often complain about hypo- or hypersensation in the affected dermatome. The loss of thermal sensitivity has been demonstrated by quantitative sensory testing as being associated with small-fiber (Aδ- and C-fiber) deafferentation. We aimed to compare laser stimulation (radiant heat) to thermode stimulation (contact heat) with regard to their sensitivity and specificity to detect thermal sensory deficits related to small-fiber dysfunction in postherpetic neuralgia. We contrasted detection rate of laser stimuli with 5 thermal parameters (thresholds of cold/warm detection, cold/heat pain, and sensory limen) of quantitative sensory testing. Sixteen patients diagnosed with unilateral postherpetic neuralgia and 16 age- and gender-matched healthy control subjects were tested. Quantitative sensory testing and laser stimulation of tiny skin areas were performed in the neuralgia-affected skin and in the contralateral homologue of the neuralgia-free body side. Across the 5 thermal parameters of thermode stimulation, only one parameter (warm detection threshold) revealed sensory abnormalities (thermal hypoesthesia to warm stimuli) in the neuralgia-affected skin area of patients but not in the contralateral area, as compared to the control group. In contrast, patients perceived significantly less laser stimuli both in the affected skin and in the contralateral skin compared to controls. Overall, laser stimulation proved more sensitive and specific in detecting thermal sensory abnormalities in the neuralgia-affected skin, as well as in the control skin, than any single thermal parameter of thermode stimulation. Thus, laser stimulation of tiny skin areas might be a useful diagnostic tool for small-fiber dysfunction., (Copyright © 2012 International Association for the Study of Pain. Published by Elsevier B.V. All rights reserved.)

Published
2012
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42. Affective brain regions are activated during the processing of pain-related words in migraine patients.

Author

Eck J, Richter M, Straube T, Miltner WHR, and Weiss T

Subjects
Adult, Aged, Brain blood supply, Female, Humans, Image Processing, Computer-Assisted, Imagination physiology, Magnetic Resonance Imaging methods, Male, Middle Aged, Migraine Disorders psychology, Oxygen blood, Photic Stimulation, Brain physiopathology, Brain Mapping, Emotions physiology, Migraine Disorders pathology, Pain psychology, Vocabulary
Abstract

Several brain areas that constitute the neural matrix of pain can be activated by noxious stimuli and by pain-relevant cues, such as pictures, facial expressions, and pain-related words. Although chronic pain patients are frequently exposed to pain-related words, it remains unclear whether their pain matrix is specifically activated during the processing of such stimuli in comparison to healthy subjects. To answer this question, we compared the neural activations induced by verbal pain descriptors in a sample of migraine patients with activations in healthy controls using functional magnetic resonance imaging. Participants viewed pain-related adjectives and negative, non-pain-related adjectives that were matched for valence and arousal and were instructed to either generate mental images (imagination condition) or to count the number of vowels (distraction condition). In migraine patients, pain-related adjectives as compared with negative adjectives elicited increased activations in the left orbitofrontal cortex and anterior insula during imagination and in the right secondary somatosensory cortex and posterior insula during distraction. More pronounced pain-related activation was observed in affective pain-related regions in the patient as compared with the control group during imagination. During distraction, no differential engagement of single brain structures in response to pain-related words could be observed between groups. Overall, our findings indicate that there is an involvement of brain regions associated with the affective and sensory-discriminative dimension of pain in the processing of pain-related words in migraine patients, and that the recruitment of those regions associated with pain-related affect is enhanced in patients with chronic pain experiences., (Copyright © 2011 International Association for the Study of Pain. Published by Elsevier B.V. All rights reserved.)

Published
2011
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43. Do words hurt? Brain activation during the processing of pain-related words.

Author

Richter M, Eck J, Straube T, Miltner WHR, and Weiss T

Subjects
Adult, Arousal physiology, Brain blood supply, Emotions physiology, Female, Humans, Image Interpretation, Computer-Assisted methods, Imagination physiology, Magnetic Resonance Imaging methods, Male, Oxygen blood, Pain pathology, Reaction Time physiology, Time Factors, Young Adult, Brain physiopathology, Brain Mapping, Pain psychology, Semantics
Abstract

Previous studies suggested that areas of the pain matrix of the human brain are recruited by the processing of pain-related environmental cues such as pain-related pictures or descriptors of pain. However, it is still sketchy whether those activations are specific to the pain-relevance of the stimuli or simply reflect a general effect of negative valence or increased arousal. The present study investigates the neural mechanisms underlying the processing of pain-related, negative, positive, and neutral words. Pain-related words were matched to negative words regarding valence and arousal, and to positive words regarding arousal. Sixteen healthy subjects were scanned during two tasks, imagination and distraction, using functional MRI. When subjects were instructed to image a situation associated with the word presented (imagination task), we found increased activation within dorsolateral prefrontal cortex (DLPFC), inferior patietal gyri (IPG), and precuneus when processing pain-related words compared to other words. However, when attention was focused on a foreground task and words were presented in the background (distraction task), we found a decrease in activation within dorsal anterior cingulum (dACC) and a relative increase in activation within the subgenual ventral anterior cingulum (sACC) when processing pain related words compared to other words. Thus, activations to pain-related words are strongly modulated by the attention demands of the task. Most remarkably, the differences in processing pain-related words compared to non-pain-related words are specific to the pain-relevance of the words and cannot simply be explained by their valence or arousal.

Published
2010
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