Your search keyword '"Toepel U"' showing total 30 results

1. Distinct brain representations of processed and unprocessed foods

Author

Coricelli, C., primary, Toepel, U., additional, Notter, M., additional, Murray, M., additional, and Rumiati, R., additional

Published

2018

2. Contrastive topic and focus information in discourse : prosodic realisation and electrophysiological brain correlates

Author

Toepel, U.

Subjects

Institut für Linguistik / Allgemeine Sprachwissenschaft

Published

2005

3. Affective encoding in thespeech signal and in ERPs

Author

Alter, K., Rank, E., Kotz, S.A., Toepel, U., Besson, M., Schirmer, A., & Friederici, A.D.

Published

2003

4. Affective encoding in thespeech signal and in ERPs

Author

Alter, K., Rank, E., Kotz, S.A., Toepel, U., Besson, M., Schirmer, A., and Friederici, A.D.

Published

2003

5. Dynamic Changes in Brain Functional Connectivity during Concurrent Dual-Task Performance

Author

García, AV, Cocchi, L, Zalesky, A, Toepel, U, Whitford, TJ, De-Lucia, M, Murray, MM, Carter, O, García, AV, Cocchi, L, Zalesky, A, Toepel, U, Whitford, TJ, De-Lucia, M, Murray, MM, and Carter, O

Abstract

This study investigated the spatial, spectral, temporal and functional proprieties of functional brain connections involved in the concurrent execution of unrelated visual perception and working memory tasks. Electroencephalography data was analysed using a novel data-driven approach assessing source coherence at the whole-brain level. Three connections in the beta-band (18-24 Hz) and one in the gamma-band (30-40 Hz) were modulated by dual-task performance. Beta-coherence increased within two dorsofrontal-occipital connections in dual-task conditions compared to the single-task condition, with the highest coherence seen during low working memory load trials. In contrast, beta-coherence in a prefrontal-occipital functional connection and gamma-coherence in an inferior frontal-occipitoparietal connection was not affected by the addition of the second task and only showed elevated coherence under high working memory load. Analysis of coherence as a function of time suggested that the dorsofrontal-occipital beta-connections were relevant to working memory maintenance, while the prefrontal-occipital beta-connection and the inferior frontal-occipitoparietal gamma-connection were involved in top-down control of concurrent visual processing. The fact that increased coherence in the gamma-connection, from low to high working memory load, was negatively correlated with faster reaction time on the perception task supports this interpretation. Together, these results demonstrate that dual-task demands trigger non-linear changes in functional interactions between frontal-executive and occipitoparietal-perceptual cortices.

Published

2011

6. Catching the news: Processing strategies in listening to dialogs as measured by ERPs

Author

Pannekamp Ann, Toepel Ulrike, and Alter Kai

Subjects

Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background The online segmentation of spoken single sentences has repeatedly been associated with a particular event-related brain potential. The brain response could be attributed to the perception of major prosodic boundaries, and was termed Closure Positive Shift (CPS). However, verbal exchange between humans is mostly realized in the form of cooperative dialogs instead of loose strings of single sentences. The present study investigated whether listeners use prosodic cues for structuring larger contextually embedded utterances (i.e. dialogs) like in single sentence processing. Methods ERPs were recorded from listeners (n = 22) when presented with question-answer dialogs in German. The prosody of the answer (target sentence) either matched the context provided by a question or did not match the context question. Results CPS responses to the processing of the target sentences are elicited, first, when listeners encounter information comprising 'novelties', i.e. information not mentioned in the preceding question but facts corrected between context and target. Thereby it is irrelevant whether the actual prosody of the target sentence is in congruence with the informative status or not. Second, when listeners encounter target sentences which do not convey any novelties but only previously 'given' already known information, the structuring of the speech input is driven by prosody again. The CPS is then elicited when listeners perceive major prosodic boundaries similar as for the processing of context-free single sentences. Conclusion The study establishes a link between the on-line structuring of context-free (single sentences) and context-embedded utterances (dialogs) as measured by ERPs. Moreover, the impact of prosodic phrasing and accentuation on the perception of spoken utterances on and beyond sentence level is discussed.

Published

2007

7. Brain responses to food viewing in women during pregnancy and post partum and their relationship with metabolic health: study protocol for the FOODY Brain Study, a prospective observational study.

Author

Lesniara-Stachon A, Quansah DY, Schenk S, Retsa C, Halter RJ, Murray MM, Lacroix A, Horsch A, Toepel U, and Puder JJ

Subjects

Pregnancy, Female, Humans, Infant, Feeding Behavior, Food, Brain, Observational Studies as Topic, Postpartum Period psychology, Diabetes, Gestational psychology

Abstract

Introduction: Food cravings are common in pregnancy and along with emotional eating and eating in the absence of hunger, they are associated with excessive weight gain and adverse effects on metabolic health including gestational diabetes mellitus (GDM). Women with GDM also show poorer mental health, which further can contribute to dysregulated eating behaviour. Food cravings can lead to greater activity in brain centres known to be involved in food 'wanting' and reward valuation as well as emotional eating. They are also related to gestational weight gain. Thus, there is a great need to link implicit brain responses to food with explicit measures of food intake behaviour, especially in the perinatal period. The aim of this study is to investigate the spatiotemporal brain dynamics to visual presentations of food in women during pregnancy and in the post partum, and link these brain responses to the eating behaviour and metabolic health outcomes in women with and without GDM., Methods and Analysis: This prospective observational study will include 20 women with and 20 without GDM, that have valid data for the primary outcomes. Data will be assessed at 24-36 weeks gestational age and at 6 months post partum. The primary outcomes are brain responses to food pictures of varying carbohydrate and fat content during pregnancy and in the post partum using electroencephalography. Secondary outcomes including depressive symptoms, current mood and eating behaviours will be assessed with questionnaires, objective eating behaviours will be measured using Auracle and stress will be measured with heart rate and heart rate variability (Actiheart). Other secondary outcome measures include body composition and glycaemic control parameters., Ethics and Dissemination: The Human Research Ethics Committee of the Canton de Vaud approved the study protocol (2021-01976). Study results will be presented at public and scientific conferences and in peer-reviewed journals., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2023. Re-use permitted under CC BY. Published by BMJ.)

Published

2023

8. Distinct brain representations of processed and unprocessed foods.

Author

Coricelli C, Toepel U, Notter ML, Murray MM, and Rumiati RI

Subjects

Adolescent, Adult, Discrimination, Psychological physiology, Electroencephalography, Evoked Potentials, Visual, Female, Humans, Male, Young Adult, Brain physiology, Food, Food Handling, Visual Perception physiology

Abstract

Among all of the stimuli surrounding us, food is arguably the most rewarding for the essential role it plays in our survival. In previous visual recognition research, it has already been demonstrated that the brain not only differentiates edible stimuli from non-edible stimuli but also is endowed with the ability to detect foods' idiosyncratic properties such as energy content. Given the contribution of the cooked diet to human evolution, in the present study we investigated whether the brain is sensitive to the level of processing food underwent, based solely on its visual appearance. We thus recorded visual evoked potentials (VEPs) from normal-weight healthy volunteers who viewed color images of unprocessed and processed foods equated in caloric content. Results showed that VEPs and underlying neural sources differed as early as 130 ms post-image onset when participants viewed unprocessed versus processed foods, suggesting a within-category early discrimination of food stimuli. Responses to unprocessed foods engaged the inferior frontal and temporal regions and the premotor cortices. In contrast, viewing processed foods led to the recruitment of occipito-temporal cortices bilaterally, consistently with other motivationally relevant stimuli. This is the first evidence of diverging brain responses to food as a function of the transformation undergone during its preparation that provides insights on the spatiotemporal dynamics of food recognition., (© 2019 Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published

2019

9. The Impact of Caloric and Non-Caloric Sweeteners on Food Intake and Brain Responses to Food: A Randomized Crossover Controlled Trial in Healthy Humans.

Author

Crézé C, Candal L, Cros J, Knebel JF, Seyssel K, Stefanoni N, Schneiter P, Murray MM, Tappy L, and Toepel U

Subjects

Beverages, Blood Glucose metabolism, Body Composition, Body Mass Index, Choice Behavior, Cross-Over Studies, Double-Blind Method, Electroencephalography, Food Preferences, Ghrelin blood, Health Behavior, Humans, Hunger, Insulin blood, Male, Postprandial Period, Satiation, Taste, Weight Gain, Brain physiology, Diet, Energy Intake, Non-Nutritive Sweeteners administration & dosage, Nutritive Sweeteners administration & dosage

Abstract

Whether non-nutritive sweetener (NNS) consumption impacts food intake behavior in humans is still unclear. Discrepant sensory and metabolic signals are proposed to mislead brain regulatory centers, in turn promoting maladaptive food choices favoring weight gain. We aimed to assess whether ingestion of sucrose- and NNS-sweetened drinks would differently alter brain responses to food viewing and food intake. Eighteen normal-weight men were studied in a fasted condition and after consumption of a standardized meal accompanied by either a NNS-sweetened (NNS), or a sucrose-sweetened (SUC) drink, or water (WAT). Their brain responses to visual food cues were assessed by means of electroencephalography (EEG) before and 45 min after meal ingestion. Four hours after meal ingestion, spontaneous food intake was monitored during an ad libitum buffet. With WAT, meal intake led to increased neural activity in the dorsal prefrontal cortex and the insula, areas linked to cognitive control and interoception. With SUC, neural activity in the insula increased as well, but decreased in temporal regions linked to food categorization, and remained unchanged in dorsal prefrontal areas. The latter modulations were associated with a significantly lower total energy intake at buffet (mean kcal ± SEM; 791 ± 62) as compared to WAT (942 ± 71) and NNS (917 ± 70). In contrast to WAT and SUC, NNS consumption did not impact activity in the insula, but led to increased neural activity in ventrolateral prefrontal regions linked to the inhibition of reward. Total energy intake at the buffet was not significantly different between WAT and NNS. Our findings highlight the differential impact of caloric and non-caloric sweeteners on subsequent brain responses to visual food cues and energy intake. These variations may reflect an initial stage of adaptation to taste-calorie uncoupling, and could be indicative of longer-term consequences of repeated NNS consumption on food intake behavior., Competing Interests: L.T. has received speaker’s honoraria from Nestlé, Switzerland; Soremartec srl, Italy; and the Gatorade Sport Science Institute, USA. The other authors have no conflict of interest to disclose. The funding sponsors had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, and in the decision to publish the results.

Published

2018

10. The impact of replacing sugar- by artificially-sweetened beverages on brain and behavioral responses to food viewing - An exploratory study.

Author

Crézé C, Notter-Bielser ML, Knebel JF, Campos V, Tappy L, Murray M, and Toepel U

Subjects

Adolescent, Adult, Beverages, Brain drug effects, Cues, Diet psychology, Electroencephalography, Female, Health Behavior, Humans, Longitudinal Studies, Male, Taste, Young Adult, Brain physiology, Choice Behavior, Dietary Sugars administration & dosage, Food Preferences psychology, Sweetening Agents administration & dosage

Abstract

Several studies indicate that the outcome of nutritional and lifestyle interventions can be linked to brain 'signatures' in terms of neural reactivity to food cues. However, 'dieting' is often considered in a rather broad sense, and no study so far investigated modulations in brain responses to food cues occurring over an intervention specifically aiming to reduce sugar intake. We studied neural activity and liking in response to visual food cues in 14 intensive consumers of sugar-sweetened beverages before and after a 3-month replacement period by artificially-sweetened equivalents. Each time, participants were presented with images of solid foods differing in fat content and taste quality while high-density electroencephalography was recorded. Contrary to our hypotheses, there was no significant weight loss over the intervention period and no changes were observed in food liking or in neural activity in regions subserving salience and reward attribution. However, neural activity in response to high-fat, sweet foods was significantly reduced from pre-to post-intervention in prefrontal regions often linked to impulse control. This decrease in activity was associated with weight loss failure, suggesting an impairment in individuals' ability to exert control and adjust their solid food intake over the intervention period. Our findings highlight the need to implement multidisciplinary approaches when aiming to help individuals lose body weight., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

11. Does my brain want what my eyes like? - How food liking and choice influence spatio-temporal brain dynamics of food viewing.

Author

Bielser ML, Crézé C, Murray MM, and Toepel U

Subjects

Adult, Female, Humans, Male, Time Factors, Young Adult, Cerebral Cortex physiology, Choice Behavior physiology, Evoked Potentials, Visual physiology, Food, Food Preferences physiology, Visual Perception physiology

Abstract

How food valuation and decision-making influence the perception of food is of major interest to better understand food intake behavior and, by extension, body weight management. Our study investigated behavioral responses and spatio-temporal brain dynamics by means of visual evoked potentials (VEPs) in twenty-two normal-weight participants when viewing pairs of food photographs. Participants rated how much they liked each food item (valuation) and subsequently chose between the two alternative food images. Unsurprisingly, strongly liked foods were also chosen most often. Foods were rated faster as strongly liked than as mildly liked or disliked irrespective of whether they were subsequently chosen over an alternative. Moreover, strongly liked foods were subsequently also chosen faster than the less liked alternatives. Response times during valuation and choice were positively correlated, but only when foods were liked; the faster participants rated foods as strongly liked, the faster they were in choosing the food item over an alternative. VEP modulations by the level of liking attributed as well as the subsequent choice were found as early as 135-180ms after food image onset. Analyses of neural source activity patterns over this time interval revealed an interaction between liking and the subsequent choice within the insula, dorsal frontal and superior parietal regions. The neural responses to food viewing were found to be modulated by the attributed level of liking only when foods were chosen, not when they were dismissed for an alternative. Therein, the responses to disliked foods were generally greater than those to foods that were liked more. Moreover, the responses to disliked but chosen foods were greater than responses to disliked foods which were subsequently dismissed for an alternative offer. Our findings show that the spatio-temporal brain dynamics to food viewing are immediately influenced both by how much foods are liked and by choices taken on them. These valuation and choice processes are subserved by brain regions involved in salience and reward attribution as well as in decision-making processes, which are likely to influence prospective dietary choices in everyday life., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2016

12. Long-term effects of Roux-en-Y gastric bypass on postprandial plasma lipid and bile acids kinetics in female non diabetic subjects: A cross-sectional pilot study.

Author

De Giorgi S, Campos V, Egli L, Toepel U, Carrel G, Cariou B, Rainteau D, Schneiter P, Tappy L, and Giusti V

Subjects

Adult, Blood Glucose metabolism, Body Mass Index, Cholecystokinin blood, Cross-Sectional Studies, Female, Fibroblast Growth Factors blood, Glucagon-Like Peptide 1 blood, Humans, Insulin blood, Meals, Obesity blood, Obesity surgery, Pilot Projects, Time Factors, Apolipoprotein B-48 blood, Apolipoproteins B blood, Bile Acids and Salts blood, Gastric Bypass, Postprandial Period, Triglycerides blood

Abstract

Background and Aims: Formerly obese patients having undergone Roux-en-Y gastric bypass (RYGB) display both an accelerated digestion and absorption of carbohydrate and an increased plasma glucose clearance rate after meal ingestion. How RYGB effects postprandial kinetics of dietary lipids has yet not been investigated., Methods: Plasma triglyceride (TG), apoB48, total apoB, bile acids (BA), fibroblast growth factor 19 (FGF19), and cholecystokinin (CCK) were measured in post-absorptive conditions and over 4-h following the ingestion of a mixed test meal in a cross-sectional, pilot study involving 11 formerly obese female patients 33.8 ± 16.4 months after RYGB surgery and in 11 weight- and age-matched female control participants., Results: Compared to controls, RYGB patients had faster (254 ± 14 vs. 327 ± 7 min, p < 0.05) and lower (0.14 ± 0.04 vs. 0.35 ± 0.07 mM, p < 0.05) peak TG responses, but their peak apoB48 responses tended to be higher (2692 ± 336 vs. 1841 ± 228 ng/ml, p = 0.09). Their postprandial total BA concentrations were significantly increased and peaked earlier after meal ingestion than in controls. Their FGF19 and CCK concentrations also peaked earlier and to a higher value., Conclusions: The early postprandial apoB48 and BA responses indicate that RYGB accelerated the rate of dietary lipid absorption. The lower postprandial peak TG strongly suggests that the RYGB simultaneously increased the clearance of TG-rich lipoproteins., Clinical Trial Registration: NCT01891591., (Copyright © 2014 Elsevier Ltd and European Society for Clinical Nutrition and Metabolism. All rights reserved.)

Published

2015

13. Brain dynamics of meal size selection in humans.

Author

Toepel U, Bielser ML, Forde C, Martin N, Voirin A, le Coutre J, Murray MM, and Hudry J

Subjects

Adult, Attitude, Body Weight, Cerebral Cortex physiology, Electroencephalography, Female, Frontal Lobe physiology, Humans, Judgment, Nutritive Value, Parietal Lobe physiology, Satiety Response physiology, Temporal Lobe physiology, Brain physiology, Eating physiology, Eating psychology, Meals psychology

Abstract

Although neuroimaging research has evidenced specific responses to visual food stimuli based on their nutritional quality (e.g., energy density, fat content), brain processes underlying portion size selection remain largely unexplored. We identified spatio-temporal brain dynamics in response to meal images varying in portion size during a task of ideal portion selection for prospective lunch intake and expected satiety. Brain responses to meal portions judged by the participants as 'too small', 'ideal' and 'too big' were measured by means of electro-encephalographic (EEG) recordings in 21 normal-weight women. During an early stage of meal viewing (105-145 ms), data showed an incremental increase of the head-surface global electric field strength (quantified via global field power; GFP) as portion judgments ranged from 'too small' to 'too big'. Estimations of neural source activity revealed that brain regions underlying this effect were located in the insula, middle frontal gyrus and middle temporal gyrus, and are similar to those reported in previous studies investigating responses to changes in food nutritional content. In contrast, during a later stage (230-270 ms), GFP was maximal for the 'ideal' relative to the 'non-ideal' portion sizes. Greater neural source activity to 'ideal' vs. 'non-ideal' portion sizes was observed in the inferior parietal lobule, superior temporal gyrus and mid-posterior cingulate gyrus. Collectively, our results provide evidence that several brain regions involved in attention and adaptive behavior track 'ideal' meal portion sizes as early as 230 ms during visual encounter. That is, responses do not show an increase paralleling the amount of food viewed (and, in extension, the amount of reward), but are shaped by regulatory mechanisms., (Copyright © 2015. Published by Elsevier Inc.)

Published

2015

14. Human gustation: when the brain has taste.

Author

Toepel U and Murray MM

Subjects

Animals, Cerebral Cortex physiology, Chemoreceptor Cells physiology, Neurons physiology, Taste physiology, Taste Perception physiology

Abstract

What we put into our mouths can nourish or kill us. A new study uses state-of-the-art electroencephalogram decoding to detail how we and our brains know what we taste., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

15. Verbal labels selectively bias brain responses to high-energy foods.

Author

Toepel U, Ohla K, Hudry J, le Coutre J, and Murray MM

Subjects

Adult, Electroencephalography, Female, Food Preferences physiology, Humans, Male, Young Adult, Brain physiology, Choice Behavior physiology, Cues, Emotions physiology, Food Labeling, Food Preferences psychology

Abstract

The influence of external factors on food preferences and choices is poorly understood. Knowing which and how food-external cues impact the sensory processing and cognitive valuation of food would provide a strong benefit toward a more integrative understanding of food intake behavior and potential means of interfering with deviant eating patterns to avoid detrimental health consequences for individuals in the long run. We investigated whether written labels with positive and negative (as opposed to 'neutral') valence differentially modulate the spatio-temporal brain dynamics in response to the subsequent viewing of high- and low-energetic food images. Electrical neuroimaging analyses were applied to visual evoked potentials (VEPs) from 20 normal-weight participants. VEPs and source estimations in response to high- and low- energy foods were differentially affected by the valence of preceding word labels over the ~260-300 ms post-stimulus period. These effects were only observed when high-energy foods were preceded by labels with positive valence. Neural sources in occipital as well as posterior, frontal, insular and cingulate regions were down-regulated. These findings favor cognitive-affective influences especially on the visual responses to high-energetic food cues, potentially indicating decreases in cognitive control and goal-adaptive behavior. Inverse correlations between insular activity and effectiveness in food classification further indicate that this down-regulation directly impacts food-related behavior., (© 2013.)

Published

2014

16. Dynamics of phonological-phonetic encoding in word production: evidence from diverging ERPs between stroke patients and controls.

Author

Laganaro M, Python G, and Toepel U

Subjects

Adult, Electroencephalography, Female, Humans, Male, Middle Aged, Photic Stimulation, Semantics, Signal Processing, Computer-Assisted, Articulation Disorders physiopathology, Evoked Potentials physiology, Phonetics, Speech physiology, Stroke physiopathology

Abstract

While the dynamics of lexical-semantic and lexical-phonological encoding in word production have been investigated in several event-related potential (ERP) studies, the estimated time course of phonological-phonetic encoding is the result of rather indirect evidence. We investigated the dynamics of phonological-phonetic encoding combining ERP analyses covering the entire encoding process in picture naming and word reading tasks by comparing ERP modulations in eight brain-damaged speakers presenting impaired phonological-phonetic encoding relative to 16 healthy controls. ERPs diverged between groups in terms of local waveform amplitude and global topography at ∼400 ms after stimulus onset in the picture naming task and at ∼320-350 ms in word reading and sustained until 100 ms before articulation onset. These divergences appeared in later time windows than those found in patients with underlying lexical-semantic and lexical-phonological impairment in previous studies, providing evidence that phonological-phonetic encoding is engaged around 400 ms in picture naming and around 330 ms in word reading., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

17. The role of energetic value in dynamic brain response adaptation during repeated food image viewing.

Author

Lietti CV, Murray MM, Hudry J, le Coutre J, and Toepel U

Subjects

Adaptation, Physiological physiology, Adult, Electrophysiological Phenomena, Energy Intake physiology, Female, Humans, Male, Self Report, Young Adult, Brain physiology, Choice Behavior physiology, Evoked Potentials, Visual, Food

Abstract

The repeated presentation of simple objects as well as biologically salient objects can cause the adaptation of behavioral and neural responses during the visual categorization of these objects. Mechanisms of response adaptation during repeated food viewing are of particular interest for better understanding food intake beyond energetic needs. Here, we measured visual evoked potentials (VEPs) and conducted neural source estimations to initial and repeated presentations of high-energy and low-energy foods as well as non-food images. The results of our study show that the behavioral and neural responses to food and food-related objects are not uniformly affected by repetition. While the repetition of images displaying low-energy foods and non-food modulated VEPs as well as their underlying neural sources and increased behavioral categorization accuracy, the responses to high-energy images remained largely invariant between initial and repeated encounters. Brain mechanisms when viewing images of high-energy foods thus appear less susceptible to repetition effects than responses to low-energy and non-food images. This finding is likely related to the superior reward value of high-energy foods and might be one reason why in particular high-energetic foods are indulged although potentially leading to detrimental health consequences., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2012

18. Gender and weight shape brain dynamics during food viewing.

Author

Toepel U, Knebel JF, Hudry J, le Coutre J, and Murray MM

Subjects

Adult, Female, Humans, Male, Appetite Regulation physiology, Cerebral Cortex physiology, Evoked Potentials, Visual physiology, Food, Sex Characteristics, Visual Perception physiology, Weight Gain physiology

Abstract

Hemodynamic imaging results have associated both gender and body weight to variation in brain responses to food-related information. However, the spatio-temporal brain dynamics of gender-related and weight-wise modulations in food discrimination still remain to be elucidated. We analyzed visual evoked potentials (VEPs) while normal-weighted men (n = 12) and women (n = 12) categorized photographs of energy-dense foods and non-food kitchen utensils. VEP analyses showed that food categorization is influenced by gender as early as 170 ms after image onset. Moreover, the female VEP pattern to food categorization co-varied with participants' body weight. Estimations of the neural generator activity over the time interval of VEP modulations (i.e. by means of a distributed linear inverse solution [LAURA]) revealed alterations in prefrontal and temporo-parietal source activity as a function of image category and participants' gender. However, only neural source activity for female responses during food viewing was negatively correlated with body-mass index (BMI) over the respective time interval. Women showed decreased neural source activity particularly in ventral prefrontal brain regions when viewing food, but not non-food objects, while no such associations were apparent in male responses to food and non-food viewing. Our study thus indicates that gender influences are already apparent during initial stages of food-related object categorization, with small variations in body weight modulating electrophysiological responses especially in women and in brain areas implicated in food reward valuation and intake control. These findings extend recent reports on prefrontal reward and control circuit responsiveness to food cues and the potential role of this reactivity pattern in the susceptibility to weight gain.

Published

2012

19. Visual-gustatory interaction: orbitofrontal and insular cortices mediate the effect of high-calorie visual food cues on taste pleasantness.

Author

Ohla K, Toepel U, le Coutre J, and Hudry J

Subjects

Adult, Algorithms, Behavior physiology, Evoked Potentials physiology, Female, Humans, Male, Young Adult, Cues, Energy Intake physiology, Food, Frontal Lobe anatomy & histology, Frontal Lobe physiology, Taste Perception physiology, Visual Perception physiology

Abstract

Vision provides a primary sensory input for food perception. It raises expectations on taste and nutritional value and drives acceptance or rejection. So far, the impact of visual food cues varying in energy content on subsequent taste integration remains unexplored. Using electrical neuroimaging, we assessed whether high- and low-calorie food cues differentially influence the brain processing and perception of a subsequent neutral electric taste. When viewing high-calorie food images, participants reported the subsequent taste to be more pleasant than when low-calorie food images preceded the identical taste. Moreover, the taste-evoked neural activity was stronger in the bilateral insula and the adjacent frontal operculum (FOP) within 100 ms after taste onset when preceded by high- versus low-calorie cues. A similar pattern evolved in the anterior cingulate (ACC) and medial orbitofrontal cortex (OFC) around 180 ms, as well as, in the right insula, around 360 ms. The activation differences in the OFC correlated positively with changes in taste pleasantness, a finding that is an accord with the role of the OFC in the hedonic evaluation of taste. Later activation differences in the right insula likely indicate revaluation of interoceptive taste awareness. Our findings reveal previously unknown mechanisms of cross-modal, visual-gustatory, sensory interactions underlying food evaluation.

Published

2012

20. Food's visually perceived fat content affects discrimination speed in an orthogonal spatial task.

Author

Harrar V, Toepel U, Murray MM, and Spence C

Subjects

Adult, Female, Humans, Male, Neuropsychological Tests standards, Reaction Time physiology, Space Perception physiology, Young Adult, Dietary Fats analysis, Discrimination, Psychological physiology, Feeding Behavior psychology, Food Analysis methods, Form Perception physiology, Psychomotor Performance physiology

Abstract

Choosing what to eat is a complex activity for humans. Determining a food's pleasantness requires us to combine information about what is available at a given time with knowledge of the food's palatability, texture, fat content, and other nutritional information. It has been suggested that humans may have an implicit knowledge of a food's fat content based on its appearance; Toepel et al. (Neuroimage 44:967-974, 2009) reported visual-evoked potential modulations after participants viewed images of high-energy, high-fat food (HF), as compared to viewing low-fat food (LF). In the present study, we investigated whether there are any immediate behavioural consequences of these modulations for human performance. HF, LF, or non-food (NF) images were used to exogenously direct participants' attention to either the left or the right. Next, participants made speeded elevation discrimination responses (up vs. down) to visual targets presented either above or below the midline (and at one of three stimulus onset asynchronies: 150, 300, or 450 ms). Participants responded significantly more rapidly following the presentation of a HF image than following the presentation of either LF or NF images, despite the fact that the identity of the images was entirely task-irrelevant. Similar results were found when comparing response speeds following images of high-carbohydrate (HC) food items to low-carbohydrate (LC) food items. These results support the view that people rapidly process (i.e. within a few hundred milliseconds) the fat/carbohydrate/energy value or, perhaps more generally, the pleasantness of food. Potentially as a result of HF/HC food items being more pleasant and thus having a higher incentive value, it seems as though seeing these foods results in a response readiness, or an overall alerting effect, in the human brain.

Published

2011

21. Context- and prosody-driven ERP markers for dialog focus perception in children.

Author

Pannekamp A, van der Meer E, and Toepel U

Subjects

Brain Mapping, Child, Child, Preschool, Electroencephalography, Female, Humans, Linguistics, Male, Reaction Time physiology, Aging physiology, Communication, Evoked Potentials physiology, Language, Speech Perception physiology

Abstract

The development of language proficiency extends late into childhood and includes not only producing or comprehending sounds, words and sentences, but likewise larger utterances spanning beyond sentence borders like dialogs. Dialogs consist of information units whose value constantly varies within a verbal exchange. While information is focused when introduced for the first time or corrected in order to alter the knowledge state of communication partners, the same information turns into shared knowledge during the further course of a verbal exchange. In many languages, prosodic means are used by speakers to highlight the informational value of information foci. Our study investigated the developmental pattern of event-related potentials (ERPs) in three age groups (12, 8 and 5 years) when perceiving two information focus types (news and corrections) embedded in short question-answer dialogs. The information foci contained in the answer sentences were either adequately marked by prosodic means or not. In so doing, we questioned to what extent children depend on prosodic means to recognize information foci or whether contextual means as provided by dialog questions are sufficient to guide focus processing.Only 12-year-olds yield prosody-independent ERPs when encountering new and corrective information foci, resembling previous findings in adults. Focus processing in the 8-year-olds relied upon prosodic highlighting, and differing ERP responses as a function of focus type were observed. In the 5-year-olds, merely prosody-driven ERP responses were apparent, but no distinctive ERP indicating information focus recognition. Our findings reveal substantial alterations in information focus perception throughout childhood that are likely related to long-lasting maturational changes during brain development.

Published

2011

22. In the eye of the listener: pupil dilation elucidates discourse processing.

Author

Zellin M, Pannekamp A, Toepel U, and van der Meer E

Subjects

Adult, Analysis of Variance, Attention physiology, Data Interpretation, Statistical, Female, Humans, Judgment, Language, Male, Principal Component Analysis, Psychomotor Performance physiology, Speech physiology, Young Adult, Cognition physiology, Interpersonal Relations, Ocular Physiological Phenomena, Pupil physiology

Abstract

The current study investigated cognitive resource allocation in discourse processing by means of pupil dilation and behavioral measures. Short question-answer dialogs were presented to listeners. Either the context question queried a new information focus in the successive answer, or else the context query was corrected in the answer sentence (correction information). The information foci contained in the answer sentences were either adequately highlighted by prosodic means or not. Participants had to judge the adequacy of the focus prosody with respect to the preceding context question. Prosodic judgment accuracy was higher in the conditions bearing adequate focus prosody than in the conditions with inadequate focus prosody. Latency to peak pupil dilation was longer when new information foci were perceived compared to correction foci. Moreover, for the peak dilation, an interaction of focus type and prosody was found. Post hoc statistical tests revealed that prosodically adequate correction focus positions were processed with smaller peak dilation in comparison to all other dialog conditions. Thus, pupil dilation and results of a principal component analysis suggest an interaction of focus type and focus prosody in discourse processing., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

23. Working memory load improves early stages of independent visual processing.

Author

Cocchi L, Toepel U, De Lucia M, Martuzzi R, Wood SJ, Carter O, and Murray MM

Subjects

Adult, Analysis of Variance, Brain Mapping, Electroencephalography methods, Female, Humans, Male, Neuropsychological Tests, Photic Stimulation methods, Reaction Time physiology, Time Factors, Visual Pathways physiology, Young Adult, Evoked Potentials, Visual physiology, Memory, Short-Term physiology, Pattern Recognition, Visual physiology, Space Perception physiology

Abstract

Increasing evidence suggests that working memory and perceptual processes are dynamically interrelated due to modulating activity in overlapping brain networks. However, the direct influence of working memory on the spatio-temporal brain dynamics of behaviorally relevant intervening information remains unclear. To investigate this issue, subjects performed a visual proximity grid perception task under three different visual-spatial working memory (VSWM) load conditions. VSWM load was manipulated by asking subjects to memorize the spatial locations of 6 or 3 disks. The grid was always presented between the encoding and recognition of the disk pattern. As a baseline condition, grid stimuli were presented without a VSWM context. VSWM load altered both perceptual performance and neural networks active during intervening grid encoding. Participants performed faster and more accurately on a challenging perceptual task under high VSWM load as compared to the low load and the baseline condition. Visual evoked potential (VEP) analyses identified changes in the configuration of the underlying sources in one particular period occurring 160-190 ms post-stimulus onset. Source analyses further showed an occipito-parietal down-regulation concurrent to the increased involvement of temporal and frontal resources in the high VSWM context. Together, these data suggest that cognitive control mechanisms supporting working memory may selectively enhance concurrent visual processing related to an independent goal. More broadly, our findings are in line with theoretical models implicating the engagement of frontal regions in synchronizing and optimizing mnemonic and perceptual resources towards multiple goals., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2011

24. Dynamic changes in brain functional connectivity during concurrent dual-task performance.

Author

Cocchi L, Zalesky A, Toepel U, Whitford TJ, De-Lucia M, Murray MM, and Carter O

Subjects

Adult, Behavior physiology, Female, Humans, Male, Memory, Short-Term physiology, Time Factors, Visual Perception physiology, Brain physiology, Nerve Net physiology, Task Performance and Analysis

Abstract

This study investigated the spatial, spectral, temporal and functional proprieties of functional brain connections involved in the concurrent execution of unrelated visual perception and working memory tasks. Electroencephalography data was analysed using a novel data-driven approach assessing source coherence at the whole-brain level. Three connections in the beta-band (18-24 Hz) and one in the gamma-band (30-40 Hz) were modulated by dual-task performance. Beta-coherence increased within two dorsofrontal-occipital connections in dual-task conditions compared to the single-task condition, with the highest coherence seen during low working memory load trials. In contrast, beta-coherence in a prefrontal-occipital functional connection and gamma-coherence in an inferior frontal-occipitoparietal connection was not affected by the addition of the second task and only showed elevated coherence under high working memory load. Analysis of coherence as a function of time suggested that the dorsofrontal-occipital beta-connections were relevant to working memory maintenance, while the prefrontal-occipital beta-connection and the inferior frontal-occipitoparietal gamma-connection were involved in top-down control of concurrent visual processing. The fact that increased coherence in the gamma-connection, from low to high working memory load, was negatively correlated with faster reaction time on the perception task supports this interpretation. Together, these results demonstrate that dual-task demands trigger non-linear changes in functional interactions between frontal-executive and occipitoparietal-perceptual cortices.

Published

2011

25. Electrical neuroimaging reveals intensity-dependent activation of human cortical gustatory and somatosensory areas by electric taste.

Author

Ohla K, Toepel U, le Coutre J, and Hudry J

Subjects

Adult, Afferent Pathways physiology, Biophysical Phenomena physiology, Electric Stimulation methods, Electroencephalography methods, Female, Humans, Male, Reaction Time physiology, Signal Processing, Computer-Assisted, Young Adult, Brain Mapping, Evoked Potentials, Somatosensory physiology, Somatosensory Cortex physiology, Taste physiology, Taste Perception physiology, Tongue physiology

Abstract

To analyze the neural basis of electric taste we performed electrical neuroimaging analyses of event-related potentials (ERPs) recorded while participants received electrical pulses to the tongue. Pulses were presented at individual taste threshold to excite gustatory fibers selectively without concomitant excitation of trigeminal fibers and at high intensity evoking a prickling and, thus, activating trigeminal fibers. Sour, salty and metallic tastes were reported at both intensities while clear prickling was reported at high intensity only. ERPs exhibited augmented amplitudes and shorter latencies for high intensity. First activations of gustatory areas (bilateral anterior insula, medial orbitofrontal cortex) were observed at 70-80ms. Common somatosensory regions were more strongly, but not exclusively, activated at high intensity. Our data provide a comprehensive view on the dynamics of cortical processing of the gustatory and trigeminal portions of electric taste and suggest that gustatory and trigeminal afferents project to overlapping cortical areas., (Copyright © 2010 Elsevier B.V. All rights reserved.)

Published

2010

26. The brain tracks the energetic value in food images.

Author

Toepel U, Knebel JF, Hudry J, le Coutre J, and Murray MM

Subjects

Adult, Brain Mapping methods, Female, Humans, Male, Reward, Young Adult, Decision Making physiology, Energy Intake physiology, Evoked Potentials, Visual physiology, Food classification, Nerve Net physiology, Nutritive Value, Visual Cortex physiology

Abstract

Do our brains implicitly track the energetic content of the foods we see? Using electrical neuroimaging of visual evoked potentials (VEPs) we show that the human brain can rapidly discern food's energetic value, vis à vis its fat content, solely from its visual presentation. Responses to images of high-energy and low-energy food differed over two distinct time periods. The first period, starting at approximately 165 ms post-stimulus onset, followed from modulations in VEP topography and by extension in the configuration of the underlying brain network. Statistical comparison of source estimations identified differences distributed across a wide network including both posterior occipital regions and temporo-parietal cortices typically associated with object processing, and also inferior frontal cortices typically associated with decision-making. During a successive processing stage (starting at approximately 300 ms), responses differed both topographically and in terms of strength, with source estimations differing predominantly within prefrontal cortical regions implicated in reward assessment and decision-making. These effects occur orthogonally to the task that is actually being performed and suggest that reward properties such as a food's energetic content are treated rapidly and in parallel by a distributed network of brain regions involved in object categorization, reward assessment, and decision-making.

Published

2009

27. Generating controlled image sets in cognitive neuroscience research.

Author

Knebel JF, Toepel U, Hudry J, le Coutre J, and Murray MM

Subjects

Food, Humans, Pattern Recognition, Visual, Photic Stimulation methods, Research, Spectrum Analysis, Brain physiology, Brain Mapping, Cognition physiology, Cognitive Science, Imagination, Set, Psychology

Abstract

The investigation of perceptual and cognitive functions with non-invasive brain imaging methods critically depends on the careful selection of stimuli for use in experiments. For example, it must be verified that any observed effects follow from the parameter of interest (e.g. semantic category) rather than other low-level physical features (e.g. luminance, or spectral properties). Otherwise, interpretation of results is confounded. Often, researchers circumvent this issue by including additional control conditions or tasks, both of which are flawed and also prolong experiments. Here, we present some new approaches for controlling classes of stimuli intended for use in cognitive neuroscience, however these methods can be readily extrapolated to other applications and stimulus modalities. Our approach is comprised of two levels. The first level aims at equalizing individual stimuli in terms of their mean luminance. Each data point in the stimulus is adjusted to a standardized value based on a standard value across the stimulus battery. The second level analyzes two populations of stimuli along their spectral properties (i.e. spatial frequency) using a dissimilarity metric that equals the root mean square of the distance between two populations of objects as a function of spatial frequency along x- and y-dimensions of the image. Randomized permutations are used to obtain a minimal value between the populations to minimize, in a completely data-driven manner, the spectral differences between image sets. While another paper in this issue applies these methods in the case of acoustic stimuli (Aeschlimann et al., Brain Topogr 2008), we illustrate this approach here in detail for complex visual stimuli.

Published

2008

28. Inadequate and infrequent are not alike: ERPs to deviant prosodic patterns in spoken sentence comprehension.

Author

Mietz A, Toepel U, Ischebeck A, and Alter K

Subjects

Adult, Brain Mapping, Female, Germany, Humans, Male, Psycholinguistics, Comprehension physiology, Evoked Potentials, Auditory physiology, Speech Perception physiology

Abstract

The current study on German investigates Event-Related brain Potentials (ERPs) for the perception of sentences with intonations which are infrequent (i.e. vocatives) or inadequate in daily conversation. These ERPs are compared to the processing correlates for sentences in which the syntax-to-prosody relations are congruent and used frequently during communication. Results show that perceiving an adequate but infrequent prosodic structure does not result in the same brain responses as encountering an inadequate prosodic pattern. While an early negative-going ERP followed by an N400 were observed for both the infrequent and the inadequate syntax-to-prosody association, only the inadequate intonation also elicits a P600.

Published

2008

29. Neuroplasticity of sign language: implications from structural and functional brain imaging.

Author

Meyer M, Toepel U, Keller J, Nussbaumer D, Zysset S, and Friederici AD

Subjects

Adult, Aging psychology, Attention physiology, Auditory Cortex physiology, Cerebral Cortex physiology, Data Interpretation, Statistical, Deafness congenital, Deafness physiopathology, Female, Functional Laterality physiology, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Reference Values, Neuronal Plasticity physiology, Sign Language

Abstract

Purpose: The present study was designed to investigate the neural correlates of German Sign Language (Deutsche Gebärdensprache; DGS) processing. In particular, was expected the impact of the visuo-spatial mode in sign language on underlying neural networks compared to the impact of the interpretation of linguistic information., Methods: For this purpose, two groups of participants took part in a functional MRI study at 3 Tesla. One group consisted of prelingually deafened users of DGS, the other group of hearing non-signers naïve to sign language. The two groups were presented with identical video sequences comprising DGS sentences in form of dialoges. To account for substantial interindividual anatomical variability observed in the group of deaf participants, the brain responses in the two groups of subjects were analyzed with two different procedures., Results: Results from a multi-subject averaging approach were contrasted with an analysis, which can account for the considerable inter-individual variability of gross anatomical landmarks. The anatomy-based approach indicated that individuals' responses to proper DGS processing was tied up with a leftward asymmetry in the dorsolateral prefrontal cortex, anterior and middle temporal gyrus, and visual association cortices. In contrast, standard multi-subject averaging of deaf individuals during DGS perception revealed a less lateralized peri- and extrasylvian network. Furthermore, voxel-based analyses of the brains' morphometry evidenced a white-matter deficit in the left posterior longitudinal and inferior uncinate fasciculi and a steeper slope of the posterior part of the left Sylvian Fissure (SF) in the deaf individuals., Conclusion: These findings may imply that the cerebral anatomy of deaf individuals has undergone structural changes as a function of monomodal visual sign language perception during childhood and adolescence.

Published

2007

30. Prosody-driven sentence processing: an event-related brain potential study.

Author

Pannekamp A, Toepel U, Alter K, Hahne A, and Friederici AD

Subjects

Acoustic Stimulation methods, Adult, Electroencephalography, Female, Humans, Male, Reaction Time, Time Factors, Brain physiology, Evoked Potentials physiology, Linguistics, Mental Processes physiology, Speech Perception physiology

Abstract

Four experiments systematically investigating the brain's response to the perception of sentences containing differing amounts of linguistic information are presented. Spoken language generally provides various levels of information for the interpretation of the incoming speech stream. Here, we focus on the processing of prosodic phrasing, especially on its interplay with phonemic, semantic, and syntactic information. An event-related brain potential (ERP) paradigm was chosen to record the on-line responses to the processing of sentences containing major prosodic boundaries. For the perception of these prosodic boundaries, the so-called closure positive shift (CPS) has been manifested as a reliable and replicable ERP component. It has mainly been shown to correlate to major intonational phrasing in spoken language. However, to define this component as exclusively relying on the prosodic information in the speech stream, it is necessary to systematically reduce the linguistic content of the stimulus material. This was done by creating quasi-natural sentence material with decreasing semantic, syntactic, and phonemic information (i. e., jabberwocky sentences, in which all content words were replaced by meaningless words; pseudoword sentences, in which all function and all content words are replaced by meaningless words; and delexicalized sentences, hummed intonation contour of a sentence removing all segmental content). The finding that a CPS was identified in all sentence types in correlation to the perception of their major intonational boundaries clearly indicates that this effect is driven purely by prosody.

Published

2005