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1. The neurocomputational link between defensive cardiac states and approach-avoidance arbitration under threat

Author

Klaassen, F.H., Voogd, L.D. de, Hulsman, A.M., O'Reilly, J.X., Klumpers, F., Figner, B., Roelofs, K., Klaassen, F.H., Voogd, L.D. de, Hulsman, A.M., O'Reilly, J.X., Klumpers, F., Figner, B., and Roelofs, K.

Abstract

Contains fulltext : 298549.pdf (Publisher’s version ) (Open Access), Avoidance, a hallmark of anxiety-related psychopathology, often comes at a cost; avoiding threat may forgo the possibility of a reward. Theories predict that optimal approach-avoidance arbitration depends on threat-induced psychophysiological states, like freezing-related bradycardia. Here we used model-based fMRI analyses to investigate whether and how bradycardia states are linked to the neurocomputational underpinnings of approach-avoidance arbitration under varying reward and threat magnitudes. We show that bradycardia states are associated with increased threat-induced avoidance and more pronounced reward-threat value comparison (i.e., a stronger tendency to approach vs. avoid when expected reward outweighs threat). An amygdala-striatal-prefrontal circuit supports approach-avoidance arbitration under threat, with specific involvement of the amygdala and dorsal anterior cingulate (dACC) in integrating reward-threat value and bradycardia states. These findings highlight the role of human freezing states in value-based decision making, relevant for optimal threat coping. They point to a specific role for amygdala/dACC in state-value integration under threat., 15 p.

Published
2024

2. Tackling costly fearful avoidance using Pavlovian counterconditioning

Author

Hulsman, A.M., Pavert, I. van de, Roelofs, K., Klumpers, F., Hulsman, A.M., Pavert, I. van de, Roelofs, K., and Klumpers, F.

Abstract

27 juli 2023, Item does not contain fulltext, Avoidance behavior constitutes a major transdiagnostic symptom that exacerbates anxiety. It hampers fear extinction and predicts poor therapy-outcome. Pavlovian counterconditioning with a reward could alleviate avoidance better than traditional extinction by reducing negative valence of the feared situation. However, previous studies are scarce and did not consider that pathological avoidance is often costly and typically evolves from an approach-avoidance conflict. Therefore, we used an approach-avoidance conflict paradigm to model effects of counterconditioning on costly avoidance (i.e., avoidance that leads to missing out on rewards). Results from our preregistered Bayesian Mixed Model analyses in fifty-one healthy participants (43 females) indicated that counterconditioning was more effective in reducing negative valuation and decreasing costly avoidance than traditional extinction. This study supports application of a simple counterconditioning technique, shows that its efficacy transfers to more complex avoidance situations, and suggests treatment may benefit from increasing reward drive in combination with extinction to overcome avoidance. Application in a clinical sample is a necessary next step to assess clinical utility of counterconditioning.

Published
2023

4. Correction: Protocol of the Healthy Brain Study: An Accessible Resource for Understanding the Human Brain and How It Dynamically and Individually Operates in Its Bio-Social Context

Author

Healthy Brain Study consortium, Aarts, E, Akkerman, A, Altgassen, M, Bartels, R, Beckers, D, Bevelander, K, Bijleveld, E, Davidson, EB, Boleij, A, Bralten, J, Cillessen, T, Claassen, J, Cools, R, Cornelissen, I, Dresler, M, Eijsvogels, T, Faber, M, Fernández, G, Figner, B, Fritsche, M, Füllbrunn, S, Gayet, S, van Gelder, MMHJ, van Gerven, M, Geurts, S, Greven, CU, Groefsema, M, Haak, K, Hagoort, P, Hartman, Y, van der Heijden, B, Hermans, E, Heuvelmans, V, Hintz, F, den Hollander, J, Hulsman, AM, Idesis, S, Jaeger, M, Janse, E, Janzing, J, Kessels, RPC, Karremans, JC, de Kleijn, W, Klein, M, Klumpers, F, Kohn, N, Korzilius, H, Krahmer, B, de Lange, F, van Leeuwen, J, Liu, H, Luijten, M, Manders, P, Manevska, K, Marques, JP, Matthews, J, McQueen, JM, Medendorp, P, Melis, R, Meyer, A, Oosterman, J, Overbeek, L, Peelen, M, Popma, J, Postma, G, Roelofs, K, van Rossenberg, YGT, Schaap, G, Scheepers, P, Selen, L, Starren, M, Swinkels, DW, Tendolkar, I, Thijssen, DHJ, Timmerman, H, Tutunji, R, Tuladhar, A, Veling, H, Verhagen, M, Verkroost, J, Vink, J, Vriezekolk, V, Vrijsen, J, Vyrastekova, J, van der Wal, S, Willems, R, Willemsen, A, and Language, Communication and Cognition

Subjects
Questionnaires, Male, Alzheimer`s disease Donders Center for Medical Neuroscience [Radboudumc 1], COVID-19/diagnosis, 230 Affective Neuroscience, Vascular damage Radboud Institute for Health Sciences [Radboudumc 16], Stress-related disorders Donders Center for Medical Neuroscience [Radboudumc 13], lnfectious Diseases and Global Health Radboud Institute for Molecular Life Sciences [Radboudumc 4], Social Sciences, Social Environment, 330 000 Food & Cognition, Social Development, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], Analytical Chemistry, RC1200, Experimental Psychopathology and Treatment, Study Protocol, Cognition, Surveys and Questionnaires, 130 000 Cognitive Neurology & Memory, Affect/physiology, Medicine and Health Sciences, Tumours of the digestive tract Radboud Institute for Molecular Life Sciences [Radboudumc 14], Psychology, Public and Occupational Health, Cognition/physiology, Work, Health and Performance, Intelligence Tests, Grammar, Psycholinguistics, Multidisciplinary, Non-nativeness in Communication, Brain, 220 Statistical Imaging Neuroscience, 180 000 Predictive Brain, Cognitive artificial intelligence, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], Semantics, Research Design, Medicine, Female, Behavioral and Social Aspects of Health, Institute for Management Research, Inflammatory diseases Radboud Institute for Molecular Life Sciences [Radboudumc 5], Personality Tests, Adult, 110 000 Neurocognition of Language, Psychometrics, Science, Decision Making, Sensation, BF, Neuroimaging, Research and Analysis Methods, Healthcare improvement science Radboud Institute for Health Sciences [Radboudumc 18], Language and Speech, Learning and Therapy, QH301, All institutes and research themes of the Radboud University Medical Center, Humans, Speech Production and Comprehension, Sensation/physiology, 320 000 MR Structural Quantitative Imaging, Behavior, Survey Research, Behaviour Change and Well-being, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Neuro- en revalidatiepsychologie, Action, intention, and motor control, Neuropsychology and rehabilitation psychology, Other Research Radboud Institute for Health Sciences [Radboudumc 0], Cognitive Psychology, Biology and Life Sciences, COVID-19, Linguistics, Brain/diagnostic imaging, QP, Language & Communication, Communication and Media, Reconstructive and regenerative medicine Radboud Institute for Health Sciences [Radboudumc 10], Affect, Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], Narrative, Cognition & Communication, RC0321, Cognitive Science, Digital Security, 170 000 Motivational & Cognitive Control, Developmental Psychopathology, Neuroscience
Abstract

The endeavor to understand the human brain has seen more progress in the last few decades than in the previous two millennia. Still, our understanding of how the human brain relates to behavior in the real world and how this link is modulated by biological, social, and environmental factors is limited. To address this, we designed the Healthy Brain Study (HBS), an interdisciplinary, longitudinal, cohort study based on multidimensional, dynamic assessments in both the laboratory and the real world. Here, we describe the rationale and design of the currently ongoing HBS. The HBS is examining a population-based sample of 1,000 healthy participants (age 30–39) who are thoroughly studied across an entire year. Data are collected through cognitive, affective, behavioral, and physiological testing, neuroimaging, bio-sampling, questionnaires, ecological momentary assessment, and real-world assessments using wearable devices. These data will become an accessible resource for the scientific community enabling the next step in understanding the human brain and how it dynamically and individually operates in its bio-social context. An access procedure to the collected data and bio-samples is in place and published on https://www.healthybrainstudy.nl/en/data-and-methods/access. Trail registration: https://www.trialregister.nl/trial/7955.

Published
2022

5. Postural freezing relates to startle potentiation in a human fear-conditioning paradigm

Author

Ast, V.A. van, Klumpers, F., Grasman, R.P.P.P., Krypotos, A.M., Roelofs, K., Ast, V.A. van, Klumpers, F., Grasman, R.P.P.P., Krypotos, A.M., and Roelofs, K.

Abstract

Item does not contain fulltext, Freezing to impending threat is a core defensive response. It has been studied primarily using fear conditioning in non-human animals, thwarting advances in translational human anxiety research that has used other indices, such as skin conductance responses. Here we examine postural freezing as a human conditioning index for translational anxiety research. We employed a mixed cued/contextual fear-conditioning paradigm where one context signals the occurrence of the US upon the presentation of the CS, and another context signals that the CS is not followed by the US. Critically, during the following generalization phase, the CS is presented in a third and novel context. We show that human freezing is highly sensitive to fear conditioning, generalizes to ambiguous contexts, and amplifies with threat imminence. Intriguingly, stronger parasympathetically driven freezing under threat, but not sympathetically mediated skin conductance, predicts subsequent startle magnitude. These results demonstrate that humans show fear-conditioned animal-like freezing responses, known to aid in active preparation for unexpected attack, and that freezing captures real-life anxiety expression. Conditioned freezing offers a promising new, non-invasive, and continuous, readout for human fear conditioning, paving the way for future translational studies into human fear and anxiety.

Published
2022

6. Acute-stress-induced change in salience network coupling prospectively predicts post-trauma symptom development

Author

Zhang, W., Kaldewaij, R., Hashemi, M.M., Koch, S.B.J., Smit, A.S., Ast, V.A. van, Beckmann, C.F., Klumpers, F., Roelofs, K., Zhang, W., Kaldewaij, R., Hashemi, M.M., Koch, S.B.J., Smit, A.S., Ast, V.A. van, Beckmann, C.F., Klumpers, F., and Roelofs, K.

Abstract

Contains fulltext : 246942.pdf (Publisher’s version ) (Open Access), Substantial individual differences exist in how acute stress affects large-scale neurocognitive networks, including salience (SN), default mode (DMN), and central executive networks (CEN). Changes in the connectivity strength of these networks upon acute stress may predict vulnerability to long-term stress effects, which can only be tested in prospective longitudinal studies. Using such longitudinal design, we investigated whether the magnitude of acute-stress-induced functional connectivity changes (delta-FC) predicts the development of post-traumatic stress-disorder (PTSD) symptoms in a relatively resilient group of young police students that are known to be at high risk for trauma exposure. Using resting-state fMRI, we measured acute-stress-induced delta-FC in 190 police recruits before (baseline) and after trauma exposure during repeated emergency-aid services (16-month follow-up). Delta-FC was then linked to the changes in perceived stress levels (PSS) and post-traumatic stress symptoms (PCL and CAPS). Weakened connectivity between the SN and DMN core regions upon acute-stress induction at baseline predicted longitudinal increases in perceived-stress level but not of post-traumatic stress symptoms, whereas increased coupling between the overall SN and anterior cerebellum was observed in participants with higher clinician-rated PTSD symptoms, particularly intrusion levels. All the effects remained significant when controlling for trauma-exposure levels and cortisol-stress reactivity. Neither hormonal nor subjective measures exerted similar predictive or acquired effects. The reconfiguration of large-scale neural networks upon acute-stress induction is relevant for assessing and detecting risk and resilience factors for PTSD. This study highlights the SN connectivity-changes as a potential marker for trauma-related symptom development, which is sensitive even in a relatively resilient sample.

Published
2022

7. Deep-breathing biofeedback trainability in a virtual-reality action game: A single-case design study with police trainers

Author

Michela, A., Peer, J.M. van, Brammer, J.C., Nies, A., Rooij, M.M.J.W. van, Oostenveld, R., Dorrestijn, W., Smit, A.S., Roelofs, K., Klumpers, F., Granic, I., Michela, A., Peer, J.M. van, Brammer, J.C., Nies, A., Rooij, M.M.J.W. van, Oostenveld, R., Dorrestijn, W., Smit, A.S., Roelofs, K., Klumpers, F., and Granic, I.

Abstract

Contains fulltext : 246778.pdf (Publisher’s version ) (Open Access), It is widely recognized that police performance may be hindered by psychophysiological state changes during acute stress. To address the need for awareness and control of these physiological changes, police academies in many countries have implemented Heart-Rate Variability (HRV) biofeedback training. Despite these trainings now being widely delivered in classroom setups, they typically lack the arousing action context needed for successful transfer to the operational field, where officers must apply learned skills, particularly when stress levels rise. The study presented here aimed to address this gap by training physiological control skills in an arousing decision-making context. We developed a Virtual-Reality (VR) breathing-based biofeedback training in which police officers perform deep and slow diaphragmatic breathing in an engaging game-like action context. This VR game consisted of a selective shoot/don’t shoot game designed to assess response inhibition, an impaired capacity in high arousal situations. Biofeedback was provided based on adherence to a slow breathing pace: the slower and deeper the breathing, the less constrained peripheral vision became, facilitating accurate responses to the in-game demands. A total of nine male police trainers completed 10 sessions over a 4-week period as part of a single-case experimental ABAB study-design (i.e., alternating sessions with and without biofeedback). Results showed that eight out of nine participants showed improved breathing control in action, with a positive effect on breathing-induced low frequency HRV, while also improving their in-game behavioral performance. Critically, the breathing-based skill learning transferred to subsequent sessions in which biofeedback was not presented. Importantly, all participants remained highly engaged throughout the training. Altogether, our study showed that our VR environment can be used to train breathing regulation in an arousing and active decision-making context.

Published
2022

8. Correction: Protocol of the Healthy Brain Study: An accessible resource for understanding the human brain and how it dynamically and individually operates in its bio-social context

Author

Fernandez, G., Aarts, E., Akkerman, A., Altgassen, A.M., Bartels, R.H.M.A., Beckers, D.G.J., Bevelander, K.E., Bijleveld, E., Blaney Davidson, E.N., Boleij, A., Bralten, J.B., Cillessen, A.H.N., Claassen, J.A., Cools, R., Cornelissen, I.M.M., Dresler, M., Eijsvogels, T.M.H., Faber, M., Figner, B., Fritsche, M., Füllbrunn, S.C., Gayet, S., Gelder, M.M.H.J. van, Gerven, M.A.J. van, Geurts, S.A.E., Greven, C.U., Groefsema, M.M., Haak, K.V., Hagoort, P., Hartman, Y.A.W., Heijden, B.I.J.M. van der, Hermans, E., Heuvelmans, V.R., Hintz, F., Hollander, J.W. den, Hulsman, A.M., Idesis, S.A., Jaeger, Martin, Janse, E., Janzing, J.G., Kessels, R.P.C., Kleijn, W.P.E. de, Klein, M., Klumpers, F., Kohn, N., Korzilius, H.P.L.M., Krahmer, B., Lange, F.P. de, Leeuwen, J.M.C. van, Liu, H., Luijten, M., Manders, P., Manevska, K., Marques, J.P., Matthews, J., McQueen, J.M., Medendorp, W.P., Melis, R.J., Meyer, A.S., Oosterman, J.M., Overbeek, L.I.H., Peelen, M.V., Popma, J.A.M., Postma, G.J., Roelofs, K., Rossenberg, Y.G.T. van, Schaap, G.J., Scheepers, P.T., Selen, L.P.J., Starren, M.B.P., Swinkels, D.W., Tendolkar, I., Thijssen, D.H.J., Timmerman, H., Toutounji, R.T., Tuladhar, A.M., Veling, H.P., Verhagen, M., Verkroost, J., Vriezekolk, V., Vrijsen, J.N., Vyrastekova, J., Wal, S.E.I. van der, Willems, R.M., Willemsen, A.E.C.A.B., Fernandez, G., Aarts, E., Akkerman, A., Altgassen, A.M., Bartels, R.H.M.A., Beckers, D.G.J., Bevelander, K.E., Bijleveld, E., Blaney Davidson, E.N., Boleij, A., Bralten, J.B., Cillessen, A.H.N., Claassen, J.A., Cools, R., Cornelissen, I.M.M., Dresler, M., Eijsvogels, T.M.H., Faber, M., Figner, B., Fritsche, M., Füllbrunn, S.C., Gayet, S., Gelder, M.M.H.J. van, Gerven, M.A.J. van, Geurts, S.A.E., Greven, C.U., Groefsema, M.M., Haak, K.V., Hagoort, P., Hartman, Y.A.W., Heijden, B.I.J.M. van der, Hermans, E., Heuvelmans, V.R., Hintz, F., Hollander, J.W. den, Hulsman, A.M., Idesis, S.A., Jaeger, Martin, Janse, E., Janzing, J.G., Kessels, R.P.C., Kleijn, W.P.E. de, Klein, M., Klumpers, F., Kohn, N., Korzilius, H.P.L.M., Krahmer, B., Lange, F.P. de, Leeuwen, J.M.C. van, Liu, H., Luijten, M., Manders, P., Manevska, K., Marques, J.P., Matthews, J., McQueen, J.M., Medendorp, W.P., Melis, R.J., Meyer, A.S., Oosterman, J.M., Overbeek, L.I.H., Peelen, M.V., Popma, J.A.M., Postma, G.J., Roelofs, K., Rossenberg, Y.G.T. van, Schaap, G.J., Scheepers, P.T., Selen, L.P.J., Starren, M.B.P., Swinkels, D.W., Tendolkar, I., Thijssen, D.H.J., Timmerman, H., Toutounji, R.T., Tuladhar, A.M., Veling, H.P., Verhagen, M., Verkroost, J., Vriezekolk, V., Vrijsen, J.N., Vyrastekova, J., Wal, S.E.I. van der, Willems, R.M., and Willemsen, A.E.C.A.B.

Abstract

Contains fulltext : 248974.pdf (Publisher’s version ) (Open Access)

Published
2022

9. Trauma-induced human glucocorticoid receptor expression increases predict subsequent HPA-axis blunting in a prospective longitudinal design

Author

Voogd, L.D. de, Kampen, R.A., Kaldewaij, R., Zhang, W., Hashemi, M.M., Koch, S.B.J., Klumpers, F., Glennon, J.C., Roelofs, K., Voogd, L.D. de, Kampen, R.A., Kaldewaij, R., Zhang, W., Hashemi, M.M., Koch, S.B.J., Klumpers, F., Glennon, J.C., and Roelofs, K.

Abstract

Item does not contain fulltext, One of the hallmarks of post-traumatic stress disorder (PTSD) is abnormalities in the HPA-axis. This includes alterations in its negative feedback regulation. Although altered glucocorticoid receptor (GR) mRNA expression is thought to play a crucial role herein, direct longitudinal evidence in humans is lacking to support this assumption. The current prospective longitudinal study assessed the consequence of repeated trauma exposure on GR mRNA expression from saliva samples in early-career police recruits (n = 112) by assessing them before and after trauma exposure. We did not observe a relationship between change in GR mRNA expression and development of PTSD symptom severity. However, the more traumatic events were experienced during police training the stronger GR mRNA expression was increased. Moreover, increases in GR mRNA expression were associated with blunted HPA-axis stress-reactivity at follow-up compared to baseline. This study provides the first longitudinal evidence of a dose-response relationship between trauma and human GR mRNA expression (extracted from saliva) changes; therefore, replication is warranted. Our finding might contribute a possible explanatory framework for blunted HPA-axis function associated with PTSD.

Published
2022

10. Correction: Protocol of the Healthy Brain Study: An accessible resource for understanding the human brain and how it dynamically and individually operates in its bio-social context

Author

Healthy Brain Study consortium, ., Aarts, E., Akkerman, A., Altgassen, A.M., Bartels, R.H.M.A., Beckers, D.G.J., Bevelander, K.E., Bijleveld, E., Blaney Davidson, E.N., Boleij, A., Bralten, J.B., Cillessen, A.H.N., Claassen, J.A., Cools, R., Cornelissen, I.M.M., Dresler, M., Eijsvogels, T.M.H., Faber, M., Figner, B., Fernandez, G., Fritsche, M., Füllbrunn, S.C., Gayet, S., Gelder, M.M.H.J. van, Gerven, M.A.J. van, Geurts, S.A.E., Greven, C.U., Groefsema, M.M., Haak, K.V., Hagoort, P., Hartman, Y.A.W., Heijden, B.I.J.M. van der, Hermans, E.J., Heuvelmans, V.R., Hintz, F., Hollander, J.W. den, Hulsman, A.M., Idesis, S.A., Jaeger, Martin, Janse, E., Janzing, J.G., Kessels, R.P.C., Karremans, J.C.T.M., Kleijn, W.P.E. de, Klein, M., Klumpers, F., Kohn, N., Korzilius, H.P.L.M., Krahmer, B., Lange, F.P. de, Leeuwen, J.M.C. van, Liu, H., Luijten, M., Manders, P., Manevska, K., Marques, J.P., Matthews, J., McQueen, J.M., Medendorp, W.P., Melis, R.J.F., Meyer, A.S., Oosterman, J.M., Overbeek, L.I.H., Peelen, M.V., Popma, J.A.M., Postma, G.J., Roelofs, K., Rossenberg, Y.G.T. van, Schaap, G.J., Scheepers, P.T., Selen, L.P.J., Starren, M.B.P., Swinkels, D.W., Tendolkar, I., Thijssen, D.H.J., Timmerman, H., Toutounji, R.T., Tuladhar, A.M., Veling, H.P., Verhagen, M., Verkroost, J., Vriezekolk, V., Vrijsen, J.N., Vyrastekova, J., Wal, S.E.I. van der, Willems, R.M., Willemsen, A.E.C.A.B., Healthy Brain Study consortium, ., Aarts, E., Akkerman, A., Altgassen, A.M., Bartels, R.H.M.A., Beckers, D.G.J., Bevelander, K.E., Bijleveld, E., Blaney Davidson, E.N., Boleij, A., Bralten, J.B., Cillessen, A.H.N., Claassen, J.A., Cools, R., Cornelissen, I.M.M., Dresler, M., Eijsvogels, T.M.H., Faber, M., Figner, B., Fernandez, G., Fritsche, M., Füllbrunn, S.C., Gayet, S., Gelder, M.M.H.J. van, Gerven, M.A.J. van, Geurts, S.A.E., Greven, C.U., Groefsema, M.M., Haak, K.V., Hagoort, P., Hartman, Y.A.W., Heijden, B.I.J.M. van der, Hermans, E.J., Heuvelmans, V.R., Hintz, F., Hollander, J.W. den, Hulsman, A.M., Idesis, S.A., Jaeger, Martin, Janse, E., Janzing, J.G., Kessels, R.P.C., Karremans, J.C.T.M., Kleijn, W.P.E. de, Klein, M., Klumpers, F., Kohn, N., Korzilius, H.P.L.M., Krahmer, B., Lange, F.P. de, Leeuwen, J.M.C. van, Liu, H., Luijten, M., Manders, P., Manevska, K., Marques, J.P., Matthews, J., McQueen, J.M., Medendorp, W.P., Melis, R.J.F., Meyer, A.S., Oosterman, J.M., Overbeek, L.I.H., Peelen, M.V., Popma, J.A.M., Postma, G.J., Roelofs, K., Rossenberg, Y.G.T. van, Schaap, G.J., Scheepers, P.T., Selen, L.P.J., Starren, M.B.P., Swinkels, D.W., Tendolkar, I., Thijssen, D.H.J., Timmerman, H., Toutounji, R.T., Tuladhar, A.M., Veling, H.P., Verhagen, M., Verkroost, J., Vriezekolk, V., Vrijsen, J.N., Vyrastekova, J., Wal, S.E.I. van der, Willems, R.M., and Willemsen, A.E.C.A.B.

Abstract

Contains fulltext : 248974.pdf (Publisher’s version ) (Open Access)

Published
2022

12. Postural freezing relates to startle potentiation in a human fear-conditioning paradigm

Author

van Ast, V.A., Klumpers, F., Grasman, R.P.P.P., Krypotos, A.M., Roelofs, K., Experimental psychopathology, Leerstoel Engelhard, Klinische Psychologie (Psychologie, FMG), Psychologische Methodenleer (Psychologie, FMG), Experimental psychopathology, and Leerstoel Engelhard

Subjects
INVOLVEMENT, Reflex, Startle, Conditioning, Classical/physiology, 230 Affective Neuroscience, Physiology, REFLEX, Conditioning, Classical, Social Sciences, Generalization, Psychological, Experimental Psychopathology and Treatment, fear-conditioning, 0302 clinical medicine, Freezing, Psychology, fear potentiated startle, NEURONS, Reflex, Startle/physiology, Psychology, Biological, Psychology, Experimental, General Neuroscience, 05 social sciences, defensive responses, THREAT, DEFENSIVE BEHAVIOR, Fear, anxiety, OVERGENERALIZATION, EXTINCTION, Neuropsychology and Physiological Psychology, Neurology, Life Sciences & Biomedicine, EXPRESSION, Cognitive Neuroscience, Neuroscience(all), Generalization, Experimental and Cognitive Psychology, freezing, 050105 experimental psychology, 03 medical and health sciences, Fear/physiology, Startle/physiology, Developmental Neuroscience, Reflex, Animals, Humans, 0501 psychology and cognitive sciences, Biological Psychiatry, Science & Technology, Endocrine and Autonomic Systems, PERIAQUEDUCTAL GRAY-MATTER, Neurosciences, Psychological, Classical/physiology, Neurosciences & Neurology, 030217 neurology & neurosurgery, RESPONSES, Conditioning
Abstract

Contains fulltext : 244068.pdf (Publisher’s version ) (Open Access) Freezing to impending threat is a core defensive response. It has been studied primarily using fear conditioning in non-human animals, thwarting advances in translational human anxiety research that has used other indices, such as skin conductance responses. Here we examine postural freezing as a human conditioning index for translational anxiety research. We employed a mixed cued/contextual fear-conditioning paradigm where one context signals the occurrence of the US upon the presentation of the CS, and another context signals that the CS is not followed by the US. Critically, during the following generalization phase, the CS is presented in a third and novel context. We show that human freezing is highly sensitive to fear conditioning, generalizes to ambiguous contexts, and amplifies with threat imminence. Intriguingly, stronger parasympathetically driven freezing under threat, but not sympathetically mediated skin conductance, predicts subsequent startle magnitude. These results demonstrate that humans show fear-conditioned animal-like freezing responses, known to aid in active preparation for unexpected attack, and that freezing captures real-life anxiety expression. Conditioned freezing offers a promising new, non-invasive, and continuous, readout for human fear conditioning, paving the way for future translational studies into human fear and anxiety. 20 p.

Published
2022

13. Roles of the bed nucleus of the stria terminalis and amygdala in fear reactions

Author

Hulsman, A.M., Terburg, D., Roelofs, K., Klumpers, F., Swaab, D.F., Kreier, F., Lucassen, P.J., Salehi, A., Buijs, R.M., Swaab, D.F., Kreier, F., Lucassen, P.J., Salehi, A., and Buijs, R.M.

Subjects
Deep brain stimulation, 230 Affective Neuroscience, medicine.medical_treatment, Sensory system, Amygdala, Experimental Psychopathology and Treatment, Stria terminalis, medicine.anatomical_structure, Extended amygdala, medicine, Anxiety, medicine.symptom, Psychology, Neuroscience, Nucleus, Basolateral amygdala
Abstract

Item does not contain fulltext The bed nucleus of the stria terminalis (BNST) plays a critical modulatory role in driving fear responses. Part of the so-called extended amygdala, this region shares many functions and connections with the substantially more investigated amygdala proper. In this chapter, we review contributions of the BNST and amygdala to subjective, behavioral, and physiological aspects of fear. Despite the fact that both regions are together involved in each of these aspects of fear, they appear complimentary in their contributions. Specifically, the basolateral amygdala (BLA), through its connections to sensory and orbitofrontal regions, is ideally poised for fast learning and controlling fear reactions in a variety of situations. The central amygdala (CeA) relies on BLA input and is particularly important for adjusting physiological and behavioral responses under acute threat. In contrast, the BNST may profit from more extensive striatal and dorsomedial prefrontal connections to drive anticipatory responses under more ambiguous conditions that allow more time for planning. Thus current evidence suggests that the BNST is ideally suited to play a critical role responding to distant or ambiguous threats and could thereby facilitate goal-directed defensive action.

Published
2021

14. Roles of the bed nucleus of the stria terminalis and amygdala in fear reactions

Author

Swaab, D.F., Kreier, F., Lucassen, P.J., Salehi, A., Buijs, R.M., Hulsman, A.M., Terburg, D., Roelofs, K., Klumpers, F., Swaab, D.F., Kreier, F., Lucassen, P.J., Salehi, A., Buijs, R.M., Hulsman, A.M., Terburg, D., Roelofs, K., and Klumpers, F.

Abstract

Item does not contain fulltext, The bed nucleus of the stria terminalis (BNST) plays a critical modulatory role in driving fear responses. Part of the so-called extended amygdala, this region shares many functions and connections with the substantially more investigated amygdala proper. In this chapter, we review contributions of the BNST and amygdala to subjective, behavioral, and physiological aspects of fear. Despite the fact that both regions are together involved in each of these aspects of fear, they appear complimentary in their contributions. Specifically, the basolateral amygdala (BLA), through its connections to sensory and orbitofrontal regions, is ideally poised for fast learning and controlling fear reactions in a variety of situations. The central amygdala (CeA) relies on BLA input and is particularly important for adjusting physiological and behavioral responses under acute threat. In contrast, the BNST may profit from more extensive striatal and dorsomedial prefrontal connections to drive anticipatory responses under more ambiguous conditions that allow more time for planning. Thus current evidence suggests that the BNST is ideally suited to play a critical role responding to distant or ambiguous threats and could thereby facilitate goal-directed defensive action.

Published
2021

15. Protocol of the Healthy Brain Study: An accessible resource for understanding the human brain and how it dynamically and individually operates in its bio-social context

Author

Fernandez, G., Aarts, E., Akkerman, A., Altgassen, A.M., Bartels, R.H.M.A., Beckers, D.G.J., Bevelander, K.E., Bijleveld, E., Blaney Davidson, E.N., Boleij, A., Bralten, J.B., Cillessen, A.H.N., Claassen, J.A., Cools, R., Cornelissen, I.M.M., Dresler, M., Eijsvogels, T.M.H., Faber, M., Figner, B., Fritsche, M., Füllbrunn, S.C., Gayet, S., Gelder, M.M.H.J. van, Gerven, M.A.J. van, Geurts, S.A.E., Greven, C.U., Groefsema, M.M., Haak, K.V., Hagoort, P., Hartman, Y.A.W., Heijden, B.I.J.M. van der, Hermans, E., Heuvelmans, V.R., Hintz, F., Hollander, J.W. den, Hulsman, A.M., Idesis, S.A., Jaeger, Martin, Janse, E., Janzing, J.G., Kessels, R.P.C., Kleijn, W.P.E. de, Klein, M., Klumpers, F., Kohn, N., Korzilius, H.P.L.M., Krahmer, B., Lange, F.P. de, Leeuwen, J.M.C. van, Liu, H., Luijten, M., Manders, P., Manevska, K., Marques, J.P., Matthews, J., McQueen, J.M., Medendorp, W.P., Melis, R.J., Meyer, A.S., Oosterman, J.M., Overbeek, L.I.H., Peelen, M.V., Popma, J.A.M., Postma, G.J., Roelofs, K., Rossenberg, Y.G.T. van, Schaap, G.J., Scheepers, P.T., Selen, L.P.J., Starren, M.B.P., Swinkels, D.W., Tendolkar, I., Thijssen, D.H.J., Timmerman, H., Toutounji, R.T., Tuladhar, A.M., Veling, H.P., Verhagen, M., Verkroost, J., Vriezekolk, V., Vrijsen, J.N., Vyrastekova, J., Wal, S.E.I. van der, Willems, R.M., Willemsen, A.E.C.A.B., Fernandez, G., Aarts, E., Akkerman, A., Altgassen, A.M., Bartels, R.H.M.A., Beckers, D.G.J., Bevelander, K.E., Bijleveld, E., Blaney Davidson, E.N., Boleij, A., Bralten, J.B., Cillessen, A.H.N., Claassen, J.A., Cools, R., Cornelissen, I.M.M., Dresler, M., Eijsvogels, T.M.H., Faber, M., Figner, B., Fritsche, M., Füllbrunn, S.C., Gayet, S., Gelder, M.M.H.J. van, Gerven, M.A.J. van, Geurts, S.A.E., Greven, C.U., Groefsema, M.M., Haak, K.V., Hagoort, P., Hartman, Y.A.W., Heijden, B.I.J.M. van der, Hermans, E., Heuvelmans, V.R., Hintz, F., Hollander, J.W. den, Hulsman, A.M., Idesis, S.A., Jaeger, Martin, Janse, E., Janzing, J.G., Kessels, R.P.C., Kleijn, W.P.E. de, Klein, M., Klumpers, F., Kohn, N., Korzilius, H.P.L.M., Krahmer, B., Lange, F.P. de, Leeuwen, J.M.C. van, Liu, H., Luijten, M., Manders, P., Manevska, K., Marques, J.P., Matthews, J., McQueen, J.M., Medendorp, W.P., Melis, R.J., Meyer, A.S., Oosterman, J.M., Overbeek, L.I.H., Peelen, M.V., Popma, J.A.M., Postma, G.J., Roelofs, K., Rossenberg, Y.G.T. van, Schaap, G.J., Scheepers, P.T., Selen, L.P.J., Starren, M.B.P., Swinkels, D.W., Tendolkar, I., Thijssen, D.H.J., Timmerman, H., Toutounji, R.T., Tuladhar, A.M., Veling, H.P., Verhagen, M., Verkroost, J., Vriezekolk, V., Vrijsen, J.N., Vyrastekova, J., Wal, S.E.I. van der, Willems, R.M., and Willemsen, A.E.C.A.B.

Abstract

Contains fulltext : 242453.pdf (Publisher’s version ) (Open Access), The endeavor to understand the human brain has seen more progress in the last few decades than in the previous two millennia. Still, our understanding of how the human brain relates to behavior in the real world and how this link is modulated by biological, social, and environmental factors is limited. To address this, we designed the Healthy Brain Study (HBS), an interdisciplinary, longitudinal, cohort study based on multidimensional, dynamic assessments in both the laboratory and the real world. Here, we describe the rationale and design of the currently ongoing HBS. The HBS is examining a population-based sample of 1,000 healthy participants (age 30-39) who are thoroughly studied across an entire year. Data are collected through cognitive, affective, behavioral, and physiological testing, neuroimaging, bio-sampling, questionnaires, ecological momentary assessment, and real-world assessments using wearable devices. These data will become an accessible resource for the scientific community enabling the next step in understanding the human brain and how it dynamically and individually operates in its bio-social context. An access procedure to the collected data and bio-samples is in place and published on https://www.healthybrainstudy.nl/en/data-and-methods. https://www.trialregister.nl/trial/7955

Published
2021

16. Defensive freezing and its relation to approach-avoidance decision-making under threat

Author

Klaassen, F.H., Held, L.K., Figner, B., O'Reilly, J.X., Klumpers, F., Voogd, L.D. de, Roelofs, K., Klaassen, F.H., Held, L.K., Figner, B., O'Reilly, J.X., Klumpers, F., Voogd, L.D. de, and Roelofs, K.

Abstract

Contains fulltext : 233800.pdf (Publisher’s version ) (Open Access), Successful responding to acutely threatening situations requires adequate approach-avoidance decisions. However, it is unclear how threat-induced states - like freezing-related bradycardia - impact the weighing of the potential outcomes of such value-based decisions. Insight into the underlying computations is essential, not only to improve our models of decision-making but also to improve interventions for maladaptive decisions, for instance in anxiety patients and first-responders who frequently have to make decisions under acute threat. Forty-two participants made passive and active approach-avoidance decisions under threat-of-shock when confronted with mixed outcome-prospects (i.e., varying money and shock amounts). Choice behavior was best predicted by a model including individual action-tendencies and bradycardia, beyond the subjective value of the outcome. Moreover, threat-related bradycardia (high-vs-low threat) interacted with subjective value, depending on the action-context (passive-vs-active). Specifically, in action-contexts incongruent with participants' intrinsic action-tendencies, stronger bradycardia related to diminished effects of subjective value on choice across participants. These findings illustrate the relevance of testing approach–avoidance decisions in relatively ecologically valid conditions of acute and primarily reinforced threat. These mechanistic insights into approach-avoidance conflict-resolution may inspire biofeedback-related techniques to optimize decision-making under threat. Critically, the findings demonstrate the relevance of incorporating internal psychophysiological states and external action-contexts into models of approach-avoidance decision-making.

Published
2021

17. Breathing biofeedback for police officers in a stressful virtual environment: Challenges and opportunities

Author

Brammer, J.C., Peer, J.M. van, Michela, A., Rooij, M.M.J.W. van, Oostenveld, R., Klumpers, F., Dorrestijn, W., Granic, I., Roelofs, K., Brammer, J.C., Peer, J.M. van, Michela, A., Rooij, M.M.J.W. van, Oostenveld, R., Klumpers, F., Dorrestijn, W., Granic, I., and Roelofs, K.

Abstract

Contains fulltext : 231158.pdf (publisher's version ) (Open Access), As part of the Dutch national science program "Professional Games for Professional Skills" we developed a stress-exposure biofeedback training in virtual reality (VR) for the Dutch police. We aim to reduce the acute negative impact of stress on performance, as well as long-term consequences for mental health by facilitating physiological stress regulation during a demanding decision task. Conventional biofeedback applications mainly train physiological regulation at rest. This might limit the transfer of the regulation skills to stressful situations. In contrast, we provide the user with the opportunity to practice breathing regulation while they carry out a complex task in VR. This setting poses challenges from a technical - (real-time processing of noisy biosignals) as well as from a user-experience perspective (multi-tasking). We illustrate how we approach these challenges in our training and hope to contribute a useful reference for researchers and developers in academia or industry who are interested in using biosignals to control elements in a dynamic virtual environment.

Published
2021

18. Individual differences in costly fearful avoidance and the relation to psychophysiology

Author

Hulsman, A.M., Kaldewaij, R., Hashemi, M.M., Zhang, W., Koch, S.B.J., Figner, B., Roelofs, K., Klumpers, F., Hulsman, A.M., Kaldewaij, R., Hashemi, M.M., Zhang, W., Koch, S.B.J., Figner, B., Roelofs, K., and Klumpers, F.

Abstract

Contains fulltext : 228384.pdf (publisher's version ) (Open Access), Excessive avoidance behaviour is a cardinal symptom of anxiety disorders. Avoidance is not only associated with the benefits of avoiding threats, but also with the costs of missing out on rewards upon exploration. Psychological and psychophysiological mechanisms contributing to these costly avoidance decisions in prospect of mixed outcomes remain unclear. We developed a novel Fearful Avoidance Task (FAT) that resembles characteristics of real-life approach-avoidance conflicts, enabling to disentangle reward and threat effects. Using the FAT, we investigated individual differences in avoidance behaviour and anticipatory psychophysiological states (i.e. startle reflex and skin conductance) in a relatively large sample of 343 (78 females) participants. Avoidance under acute threat of shock depends on a trade-off between perceived reward and threat. Both increased startle and skin conductance in the absence of threat of shock emerged as predictors of increased avoidance (potentially indicative of fear generalization). Increased avoidance was also associated with female sex and trait anxiety, dependent on reward and threat levels. Our findings highlight distinct possible predictors of heightened avoidance and add to mechanistic understanding of how individual propensity for costly avoidance may emerge. Distinct avoidance typologies based on differential reward and threat sensitivities may have different mechanistic origins and thereby could benefit from different treatment strategies.

Published
2021

19. Human defensive freezing: Associations with hair cortisol and trait anxiety

Author

Hashemi, M.M., Zhang, W., Kaldewaij, R., Koch, S.B.J., Smit, A.S., Figner, B., Jonker, R., Klumpers, F., Roelofs, K., Hashemi, M.M., Zhang, W., Kaldewaij, R., Koch, S.B.J., Smit, A.S., Figner, B., Jonker, R., Klumpers, F., and Roelofs, K.

Abstract

Item does not contain fulltext, The anticipation of threat facilitates innate defensive behaviours including freezing reactions. Freezing in humans is characterized by reductions in body sway and heart rate. Limited evidence suggests that individual differences in freezing reactions are associated with predictors of anxiety-related psychopathology including trait anxiety and hypothalamic-pituitary-adrenal (HPA) axis activity. However, previous human studies focused on acutely circulating cortisol levels, leaving the link between freezing and more stable, individual trait markers of HPA axis activity unclear. We investigated whether individual differences in anticipatory freezing reactions are predicted by accumulated hair cortisol concentrations (HCC) and trait anxiety, in a well-powered mixed sample of police recruits at the start of the police training, and age, sex and education matched controls (total N=419, mean age = 24, Nwomen=106, Npolice recruits=337). Freezing-related reactions were assessed with posturographic and heart rate measurements during an active shooting task under threat of shock. The anticipation of threat of shock elicited the expected reductions in body sway and heart rate, indicative of human freezing. Individual differences in threat-related reductions in body sway, but not heart rate, were related to lower HCC and higher trait anxiety. The observed links between postural freezing and predictors of anxiety-related psychopathology suggest the potential value of defensive freezing as a somatic marker for individual differences in stress-vulnerability and resilience. Data availability The datasets analysed during the current study are available from the corresponding authors upon reasonable request.

Published
2021

20. Approach-avoidance decisions under threat: The role of autonomic psychophysiological states

Author

Livermore, J.J.A., Klaassen, F.H., Bramson, B.P., Hulsman, A.M., Meijer, S.W., Held, L.K., Klumpers, F., Voogd, L.D. de, Roelofs, K., Livermore, J.J.A., Klaassen, F.H., Bramson, B.P., Hulsman, A.M., Meijer, S.W., Held, L.K., Klumpers, F., Voogd, L.D. de, and Roelofs, K.

Abstract

Contains fulltext : 231749.pdf (publisher's version ) (Open Access), Acutely challenging or threatening situations frequently require approach-avoidance decisions. Acute threat triggers fast autonomic changes that prepare the body to freeze, fight or flee. However, such autonomic changes may also influence subsequent instrumental approach-avoidance decisions. Since defensive bodily states are often not considered in value-based decision-making models, it remains unclear how they influence the decision-making process. Here, we aim to bridge this gap by discussing the existing literature on the potential role of threat-induced bodily states on decision making and provide a new neurocomputational framework explaining how these effects can facilitate or bias approach-avoid decisions under threat. Theoretical accounts have stated that threat-induced parasympathetic activity is involved in information gathering and decision making. Parasympathetic dominance over sympathetic activity is particularly seen during threat-anticipatory freezing, an evolutionarily conserved response to threat demonstrated across species and characterized by immobility and bradycardia. Although this state of freezing has been linked to altered information processing and action preparation, a full theoretical treatment of the interactions with value-based decision making has not yet been achieved. Our neural framework, which we term the Threat State/Value Integration (TSI) Model, will illustrate how threat-induced bodily states may impact valuation of competing incentives at three stages of the decision-making process, namely at threat evaluation, integration of rewards and threats, and action initiation. Additionally, because altered parasympathetic activity and decision biases have been shown in anxious populations, we will end with discussing how biases in this system can lead to characteristic patterns of avoidance seen in anxiety-related disorders, motivating future pre-clinical and clinical research.

Published
2021

21. Anterior prefrontal brain activity during emotion control predicts resilience to post-traumatic stress symptoms

Author

Kaldewaij, R., Koch, S.B.J., Hashemi, M.M., Zhang, W., Klumpers, F., Roelofs, K., Kaldewaij, R., Koch, S.B.J., Hashemi, M.M., Zhang, W., Klumpers, F., and Roelofs, K.

Abstract

Item does not contain fulltext, Regulating social emotional actions is essential for coping with life stressors and is associated with control by the anterior prefrontal cortex (aPFC) over the amygdala. However, it remains unclear to what extent prefrontal emotion regulation capacities contribute to resilience against developing post-traumatic stress disorder (PTSD) symptoms. Here, 185 police recruits who experienced their core trauma in the line of duty participated in a prospective longitudinal study. Pre- and post-trauma, they performed a well-established functional magnetic resonance imaging (fMRI) approach-avoidance task, mapping impulsive and controlled emotional actions. Higher baseline aPFC, dorsal and medial frontal pole activity was related to lower PTSD symptoms after trauma exposure. aPFC activity predicted symptom development over and above self-reported and behavioural measures. Trauma exposure, but not trauma symptoms, predicted amygdala activation at follow-up. These findings suggest that prefrontal emotion regulation activity predicts increased resilience against developing post-traumatic stress symptoms and may provide fruitful starting points for prediction and intervention studies.

Published
2021

23. Larger dentate gyrus volume as predisposing resilience factor for the development of trauma-related symptoms

Author

Koch, S.B.J., Ast, V.A. van, Kaldewaij, R., Hashemi, M.M., Zhang, W., Klumpers, F., Roelofs, K., Koch, S.B.J., Ast, V.A. van, Kaldewaij, R., Hashemi, M.M., Zhang, W., Klumpers, F., and Roelofs, K.

Abstract

Item does not contain fulltext, Early interventions to improve resilience require the identification of objective risk biomarkers for PTSD symptom development. Although altered hippocampal and amygdala volumes are consistently observed in PTSD, it remains currently unknown whether they represent a predisposing vulnerability factor for PTSD symptom development or an acquired consequence of trauma exposure and/or the disorder. We conducted a longitudinal, prospective study in 210 police recruits at high risk for trauma exposure (56 females(26.7%); mean[SD] age = 24.02[5.19]). Structural MRI scans and trauma-related symptom severity were assessed at pre-trauma baseline and at 16-month follow-up. Between assessments, police recruits were exposed to various potentially traumatic events during their police training. Police recruits reported a significant increase in police-related trauma exposure and stress-related symptoms between assessments. Smaller hippocampal left dentate gyrus (DG) volumes at baseline predicted increase in self-reported PTSD symptoms (B[SE] = -0.21[0.08], p = 0.011), stress symptoms (B[SE] = -0.16[0.07], p = 0.024) and negative affect (B[SE] = -0.21[0.07], p = 0.005) upon trauma exposure. Amount of police-related trauma exposure between assessments was positively associated with an increase in left basal amygdala nucleus volume (B[SE] = 0.11[0.05], p = 0.026). Taken together, smaller DG-volumes pre-trauma may represent a predisposing neurobiological vulnerability factor for development of trauma-related symptoms. On the other hand, amount of trauma exposure between assessments was positively associated with increased amygdala basal nucleus volume, suggesting acquired neural effects. These findings suggest that preventive interventions for PTSD aimed at improving resilience could be targeted at increasing DG-volume and potentially its functioning.

Published
2021

24. Protocol of the Healthy Brain Study: An accessible resource for understanding the human brain and how it dynamically and individually operates in its bio-social context

Author

Healthy Brain Study consortium, ., Aarts, E., Akkerman, A., Altgassen, A.M., Bartels, R.H.M.A., Beckers, D.G.J., Bevelander, K.E., Bijleveld, E., Blaney Davidson, E.N., Boleij, A., Bralten, J.B., Cillessen, A.H.N., Claassen, J.A., Cools, R., Cornelissen, I.M., Dresler, M., Eijsvogels, T.M.H., Faber, M., Fernandez, G., Figner, B., Fritsche, M., Füllbrunn, S.C., Gayet, S., Gelder, M.M.H.J. van, Gerven, M.A.J. van, Geurts, S.A.E., Greven, C.U., Groefsema, M.M., Haak, K.V., Hagoort, P., Hartman, Y.A.W., Heijden, B.I.J.M. van der, Hermans, E.J., Heuvelmans, V.R., Hintz, F., Hollander, J.W. den, Hulsman, A.M., Idesis, S.A., Jaeger, M., Janse, E., Janzing, J.G., Kessels, R.P.C., Karremans, J.C.T.M., Kleijn, W.P.E. de, Klein, M., Klumpers, F., Kohn, N., Korzilius, H.P.L.M., Krahmer, B., Lange, F.P. de, Leeuwen, J.M.C. van, Liu, H., Luijten, M., Manders, P., Manevska, K., Marques, J.P., Matthews, J., McQueen, J.M., Medendorp, W.P., Melis, R.J.F., Meyer, A.S., Oosterman, J.M., Overbeek, L.I.H., Peelen, M.V., Popma, J.A.M., Postma, G.J., Roelofs, K., Rossenberg, Y.G.T. van, Schaap, G.J., Scheepers, P.T., Selen, L.P.J., Starren, M.B.P., Swinkels, D.W., Tendolkar, I., Thijssen, D.H.J., Timmerman, H., Toutounji, R.T., Tuladhar, A.M., Veling, H.P., Verhagen, M., Verkroost, J., Vriezekolk, V., Vrijsen, J.N., Vyrastekova, J., Wal, S.E.I. van der, Willems, R.M., Willemsen, A.E., Healthy Brain Study consortium, ., Aarts, E., Akkerman, A., Altgassen, A.M., Bartels, R.H.M.A., Beckers, D.G.J., Bevelander, K.E., Bijleveld, E., Blaney Davidson, E.N., Boleij, A., Bralten, J.B., Cillessen, A.H.N., Claassen, J.A., Cools, R., Cornelissen, I.M., Dresler, M., Eijsvogels, T.M.H., Faber, M., Fernandez, G., Figner, B., Fritsche, M., Füllbrunn, S.C., Gayet, S., Gelder, M.M.H.J. van, Gerven, M.A.J. van, Geurts, S.A.E., Greven, C.U., Groefsema, M.M., Haak, K.V., Hagoort, P., Hartman, Y.A.W., Heijden, B.I.J.M. van der, Hermans, E.J., Heuvelmans, V.R., Hintz, F., Hollander, J.W. den, Hulsman, A.M., Idesis, S.A., Jaeger, M., Janse, E., Janzing, J.G., Kessels, R.P.C., Karremans, J.C.T.M., Kleijn, W.P.E. de, Klein, M., Klumpers, F., Kohn, N., Korzilius, H.P.L.M., Krahmer, B., Lange, F.P. de, Leeuwen, J.M.C. van, Liu, H., Luijten, M., Manders, P., Manevska, K., Marques, J.P., Matthews, J., McQueen, J.M., Medendorp, W.P., Melis, R.J.F., Meyer, A.S., Oosterman, J.M., Overbeek, L.I.H., Peelen, M.V., Popma, J.A.M., Postma, G.J., Roelofs, K., Rossenberg, Y.G.T. van, Schaap, G.J., Scheepers, P.T., Selen, L.P.J., Starren, M.B.P., Swinkels, D.W., Tendolkar, I., Thijssen, D.H.J., Timmerman, H., Toutounji, R.T., Tuladhar, A.M., Veling, H.P., Verhagen, M., Verkroost, J., Vriezekolk, V., Vrijsen, J.N., Vyrastekova, J., Wal, S.E.I. van der, Willems, R.M., and Willemsen, A.E.

Abstract

Contains fulltext : 242453.pdf (Publisher’s version ) (Open Access), The endeavor to understand the human brain has seen more progress in the last few decades than in the previous two millennia. Still, our understanding of how the human brain relates to behavior in the real world and how this link is modulated by biological, social, and environmental factors is limited. To address this, we designed the Healthy Brain Study (HBS), an interdisciplinary, longitudinal, cohort study based on multidimensional, dynamic assessments in both the laboratory and the real world. Here, we describe the rationale and design of the currently ongoing HBS. The HBS is examining a population-based sample of 1,000 healthy participants (age 30-39) who are thoroughly studied across an entire year. Data are collected through cognitive, affective, behavioral, and physiological testing, neuroimaging, bio-sampling, questionnaires, ecological momentary assessment, and real-world assessments using wearable devices. These data will become an accessible resource for the scientific community enabling the next step in understanding the human brain and how it dynamically and individually operates in its bio-social context. An access procedure to the collected data and bio-samples is in place and published on https://www.healthybrainstudy.nl/en/data-and-methods. https://www.trialregister.nl/trial/7955

Published
2021

27. Good vibrations: An observational study of real-life stress induced by a stage performance

Author

Everaerd, D.S., Henckens, M.J.A.G., Bloemendaal, M., Bovy, L., Kaldewaij, R., Maas, F.M.W.M., Mulders, P.C.R., Niermann, H.C.M., Pavert, I. van de, Przezdzik, I., Fernandez, G., Klumpers, F., Voogd, L.D. de, Everaerd, D.S., Henckens, M.J.A.G., Bloemendaal, M., Bovy, L., Kaldewaij, R., Maas, F.M.W.M., Mulders, P.C.R., Niermann, H.C.M., Pavert, I. van de, Przezdzik, I., Fernandez, G., Klumpers, F., and Voogd, L.D. de

Abstract

Contains fulltext : 215914.pdf (publisher's version ) (Closed access), Stressors induce physiological changes in the brain and periphery that support adaptive defensive responses. The consequences of psychological stress on cognitive functioning are often measured in laboratory settings using experimentally induced stress that leads to mainly negative subjective feelings. There is a need for verification of these studies using real-life stressors that may potentially induce both positive and negative subjective feelings. In an observational study, we investigated real-life stress induced by voluntary stage performance at a large-scale music festival, including 126 participants (60 female, age range = 16-57 years). Our primary measurements involved salivary cortisol, heart rate, blood pressure, and positive and negative affect. In addition, participants completed a 2-back working memory task and a speeded decision-making task. We found that stage performance significantly increased salivary cortisol - with a particularly low number of cortisol non-responders - and heart rate, even when controlling for potential confounding factors, such as sleep, movement, and alcohol use. Interestingly, stage performance significantly decreased negative affect while increasing positive affect. This positively experienced stressor ("eustressor") was related to impaired working memory performance: the stronger the increases in cortisol, the slower participants responded to targets. Decision-making, however, was not affected. In conclusion, we show how stressful experiences in real-life can lead to positive affect, but still have a similar negative impact on cognitive functioning. We suggest that future research should focus more on the consequences of real-life stressors, and the consequences of eustress, in order to extend our understanding of the concept of psychological stress.

Published
2020

28. Discriminating stress from rest based on resting-state connectivity of the human brain: A supervised machine learning study

Author

Zhang, W., Llera Arenas, A., Hashemi, M.M., Kaldewaij, R., Koch, S.B.J., Beckmann, C.F., Klumpers, F., Roelofs, K., Zhang, W., Llera Arenas, A., Hashemi, M.M., Kaldewaij, R., Koch, S.B.J., Beckmann, C.F., Klumpers, F., and Roelofs, K.

Abstract

Contains fulltext : 219552.pdf (publisher's version ) (Open Access), Acute stress induces large-scale neural reorganization with relevance to stress-related psychopathology. Here, we applied a novel supervised machine learning method, combining the strengths of a priori theoretical insights with a data-driven approach, to identify which connectivity changes are most prominently associated with a state of acute stress and individual differences therein. Resting-state functional magnetic resonance imaging scans were taken from 334 healthy participants (79 females) before and after a formal stress induction. For each individual scan, mean time-series were extracted from 46 functional parcels of three major brain networks previously shown to be potentially sensitive to stress effects (default mode network (DMN), salience network (SN), and executive control networks). A data-driven approach was then used to obtain discriminative spatial linear filters that classified the pre- and post-stress scans. To assess potential relevance for understanding individual differences, probability of classification using the most discriminative filters was linked to individual cortisol stress responses. Our model correctly classified pre- versus post-stress states with highly significant accuracy (above 75%; leave-one-out validation relative to chance performance). Discrimination between pre- and post-stress states was mainly based on connectivity changes in regions from the SN and DMN, including the dorsal anterior cingulate cortex, amygdala, posterior cingulate cortex, and precuneus. Interestingly, the probability of classification using these connectivity changes were associated with individual cortisol increases. Our results confirm the involvement of DMN and SN using a data-driven approach, and specifically single out key regions that might receive additional attention in future studies for their relevance also for individual differences.

Published
2020

30. Frontal control over automatic emotional action tendencies predicts acute stress responsivity

Author

Kaldewaij, R., Koch, S.B.J., Zhang, W., Hashemi, M.M., Klumpers, F., Roelofs, K., Kaldewaij, R., Koch, S.B.J., Zhang, W., Hashemi, M.M., Klumpers, F., and Roelofs, K.

Abstract

Item does not contain fulltext, Background: The ability to control social-emotional actions is relevant for everyday social interaction and may be indicative of responsiveness to actual social stress situations. This is particularly relevant for predicting stress-responsiveness of the hypothalamus-pituitary-adrenal (HPA)-axis, known to be dysregulated in various stress-related affective disorders. Here we tested, in a large sample, whether reduced frontal control over social approach-avoidance actions can indeed signal increased HPA-axis reactivity to subsequent social stress-exposure. Methods: 279 subjects (214 males) participated in an fMRI social-emotional approach-avoidance task (AAT), which involved impulsive and controlled emotional actions. Subsequently, participants underwent a stress induction including a socially evaluated cold-pressor task (SECPT) and mental arithmetic task (MA). Salivary cortisol and α-amylase levels, as well as self-reported negative affect, were measured before and after stress induction. Results: Emotion control was successfully induced by the AAT. Namely, instrumental overriding of automatic social approach-avoidance actions was associated with the typical increased bilateral anterior prefrontal cortex (aPFC) activation, longer reaction times and more errors. Moreover, subsequent stress induction led to significant increases in all stress measures. Critically, bilateral aPFC activation during emotional control was associated with reduced responses to the subsequent stressor, not only in cortisol but also α-amylase and negative affect. Conclusions: The ability to recruit prefrontal regions during social emotion regulation predicts cortisol responses to an actual social stress-situation. This finding provides the first evidence that instrumental control over social approach-avoidance actions can signal stress-responsiveness in major stress systems, providing a promising biomarker in stress-vulnerability and resilience research relevant for affective disorders.

Published
2019

32. The association between serotonin transporter availability and the neural correlates of fear bradycardia

Author

Schipper, P., Hiemstra, M., Bosch, K., Nieuwenhuis, D., Adinolfi, A., Glotzbach, S., Borghans, B., Lopresto, D., Fernandez, G.S.E., Klumpers, F., Hermans, E.J., Roelofs, K., Henckens, M.J.A.G., Homberg, J.R., Schipper, P., Hiemstra, M., Bosch, K., Nieuwenhuis, D., Adinolfi, A., Glotzbach, S., Borghans, B., Lopresto, D., Fernandez, G.S.E., Klumpers, F., Hermans, E.J., Roelofs, K., Henckens, M.J.A.G., and Homberg, J.R.

Abstract

Contains fulltext : 214055.pdf (publisher's version ) (Open Access), Reduced expression of the serotonin transporter (5-HTT) is associated with susceptibility to stress-related psychopathology, but the underlying mechanisms remain elusive. We investigated whether an aberrant physiological and neural response to threat underlies this increased vulnerability. In a cross-species approach, we investigated the association between genetically encoded differences in 5-HTT expression and the neural correlates of fear bradycardia, a defensive response linked to vigilance. In both humans and rats, reduced 5-HTT expression was associated with exaggerated bradycardia or bradycardia-associated freezing, reduced activity of the medial prefrontal cortex, and increased threat-induced amygdala-periaqueductal grey connectivity and central amygdala somatostatin neuron activity. We have delineated a previously unknown neurogenetic mechanism underlying individual differences in the expression of anticipatory threat responses, contributing to stress sensitivity.Susceptibility to stress-related psychopathology is associated with reduced expression of the serotonin transporter (5-HTT), particularly in combination with stress exposure. Aberrant physiological and neuronal responses to threat may underlie this increased vulnerability. Here, implementing a cross-species approach, we investigated the association between 5-HTT expression and the neural correlates of fear bradycardia, a defensive response linked to vigilance and action preparation. We tested this during threat anticipation induced by a well-established fear conditioning paradigm applied in both humans and rodents. In humans, we studied the effect of the common 5-HTT-linked polymorphic region (5-HTTLPR) on bradycardia and neural responses to anticipatory threat during functional magnetic resonance imaging scanning in healthy volunteers (n = 104). Compared with homozygous long-allele carriers, the 5-HTTLPR short-allele carriers displayed an exaggerated bradycardic response to threat, overall reduced

Published
2019

34. Roles of the amygdala and basal forebrain in defense: A Reply to Lucyk et al. and implications for defensive action

Author

Klumpers, F., Kroes, M.C.W., Klumpers, F., and Kroes, M.C.W.

Abstract

Contains fulltext : 204116.pdf (publisher's version ) (Open Access), The commentary by Luyck and colleagues on our paper provides many stimulating viewpoints and interpretations of our original study on dissociable responses in the amygdala and bed nucleus of the stria terminalis in threat processing. Here, we reply to some of the points raised and while agreeing with most of the comments also provide some alternative viewpoints. We end by putting forward a research agenda for how to further investigate the roles of these regions in threat processing, with an emphasis on studying their roles in defensive action.

Published
2019

35. Acute stress alters the 'default' brain processing

Author

Zhang, W., Hashemi, M.M., Kaldewaij, R., Koch, S.B.J., Beckmann, C.F., Klumpers, F., Roelofs, K., Zhang, W., Hashemi, M.M., Kaldewaij, R., Koch, S.B.J., Beckmann, C.F., Klumpers, F., and Roelofs, K.

Abstract

Contains fulltext : 201213.pdf (publisher's version ) (Open Access), Active adaptation to acute stress is essential for coping with daily life challenges. The stress hormone cortisol, as well as large scale re-allocations of brain resources have been implicated in this adaptation. Stress-induced shifts between large-scale brain networks, including salience (SN), central executive (CEN) and default mode networks (DMN), have however been demonstrated mainly under task-conditions. It remains unclear whether such network shifts also occur in the absence of ongoing task-demands, and most critically, whether these network shifts are predictive of individual variation in the magnitude of cortisol stress-responses. In a sample of 335 healthy participants, we investigated stress-induced functional connectivity changes (delta-FC) of the SN, CEN and DMN, using resting-state fMRI data acquired before and after a socially evaluated cold-pressor test and a mental arithmetic task. To investigate which network changes are associated with acute stress, we evaluated the association between cortisol increase and delta-FC of each network. Stress-induced cortisol increase was associated with increased connectivity within the SN, but with decreased coupling of DMN at both local (within network) and global (synchronization with brain regions also outside the network) levels. These findings indicate that acute stress prompts immediate connectivity changes in large-scale resting-state networks, including the SN and DMN in the absence of explicit ongoing task-demands. Most interestingly, this brain reorganization is coupled with individuals’ cortisol stress-responsiveness. These results suggest that the observed stress-induced network reorganization might function as a neural mechanism determining individual stress reactivity and, therefore, it could serve as a promising marker for future studies on stress resilience and vulnerability.

Published
2019

36. Reducing the noise of reality

Author

Michela, A., Rooij, M.M.J.W. van, Klumpers, F., Peer, J.M. van, Roelofs, K., Granic, I., Michela, A., Rooij, M.M.J.W. van, Klumpers, F., Peer, J.M. van, Roelofs, K., and Granic, I.

Abstract

Contains fulltext : 214410.pdf (publisher's version ) (Open Access)

Published
2019

37. High endogenous testosterone levels are associated with diminished neural emotional control in aggressive police recruits

Author

Kaldewaij, R., Koch, S.B.J., Zhang, W., Hashemi, M.M., Klumpers, F., Roelofs, K., Kaldewaij, R., Koch, S.B.J., Zhang, W., Hashemi, M.M., Klumpers, F., and Roelofs, K.

Abstract

Contains fulltext : 205951pub.pdf (publisher's version ) (Open Access), Although police officers are carefully selected for their high emotion-regulation abilities, excessive aggression in police officers has been reported, particularly in socially challenging situations known to elicit high state testosterone levels. Adequate regulation of emotional actions depends on the prefrontal cortex's control over the amygdala. We investigated the effects of trait aggression and endogenous testosterone on this emotional-control neurocircuitry in 275 healthy, high-functioning police recruits using a functional MRI social-emotional task eliciting impulsive and controlled approach-and-avoidance actions. Higher levels of aggression were counteracted by increased anterior prefrontal cortex (aPFC) control over the amygdala when control over automatic emotional actions was required. Crucially, testosterone had a detrimental effect on this aggression-dependent aPFC recruitment: Police recruits with relatively high trait aggression and high state testosterone showed reduced aPFC control over the amygdala during emotion regulation. This provides a mechanistic explanation for inadequate behavioral control during socially challenging situations in otherwise well-functioning individuals.

Published
2019

38. Neural dynamics of shooting decisions and the switch from freeze to fight

Author

Hashemi, M.M., Gladwin, T.E., Valk, N.M. de, Zhang, W., Kaldewaij, R., Ast, V.A. van, Koch, S.B.J., Klumpers, F., Roelofs, K., Hashemi, M.M., Gladwin, T.E., Valk, N.M. de, Zhang, W., Kaldewaij, R., Ast, V.A. van, Koch, S.B.J., Klumpers, F., and Roelofs, K.

Abstract

Contains fulltext : 201571.pdf (publisher's version ) (Open Access), Real-life shooting decisions typically occur under acute threat and require fast switching between vigilant situational assessment and immediate fight-or-flight actions. Recent studies suggested that freezing facilitates action preparation and decision-making but the neurocognitive mechanisms remain unclear. We applied functional magnetic resonance imaging, posturographic and autonomic measurements while participants performed a shooting task under threat of shock. Two independent studies, in unselected civilians (N = 22) and police recruits (N = 54), revealed that preparation for shooting decisions under threat is associated with postural freezing, bradycardia, midbrain activity (including the periaqueductal gray-PAG) and PAG-amygdala connectivity. Crucially, stronger activity in the midbrain/PAG during this preparatory stage of freezing predicted faster subsequent accurate shooting. Finally, the switch from preparation to active shooting was associated with tachycardia, perigenual anterior cingulate cortex (pgACC) activity and pgACC-amygdala connectivity. These findings suggest that threat-anticipatory midbrain activity centred around the PAG supports decision-making by facilitating action preparation and highlight the role of the pgACC when switching from preparation to action. These results translate animal models of the neural switch from freeze-to-action. In addition, they reveal a core neural circuit for shooting performance under threat and provide empirical evidence for the role of defensive reactions such as freezing in subsequent action decision-making.

Published
2019

41. Maternal depressive symptoms during pregnancy are associated with amygdala hyperresponsivity in children

Author

Knaap, N.J.F. van der, Klumpers, F., El Marroun, H., Mous, S., Schubert, D., Jaddoe, V.W.V., Hofman, A., Homberg, J.R., Tiemeier, H., White, T., Fernandez, G.S.E., Knaap, N.J.F. van der, Klumpers, F., El Marroun, H., Mous, S., Schubert, D., Jaddoe, V.W.V., Hofman, A., Homberg, J.R., Tiemeier, H., White, T., and Fernandez, G.S.E.

Abstract

Contains fulltext : 183010.pdf (publisher's version ) (Open Access), Depression during pregnancy is highly prevalent and has a multitude of potential risks of the offspring. Among confirmed consequences is a higher risk of psychopathology. However, it is unknown how maternal depression may impact the child's brain to mediate this vulnerability. Here we studied amygdala functioning, using task-based functional MRI, in children aged 6-9 years as a function of prenatal maternal depressive symptoms selected from a prospective population-based sample (The Generation R Study). We show that children exposed to clinically relevant maternal depressive symptoms during pregnancy (N = 19) have increased amygdala responses to negative emotional faces compared to control children (N = 20) [F(1,36) 7.02, p = 0.022]. Strikingly, postnatal maternal depressive symptoms, obtained at 3 years after birth, did not explain this relation. Our findings are in line with a model in which prenatal depressive symptoms of the mother are associated with amygdala hyperresponsivity in her offspring, which may represent a risk factor for later-life psychopathology.

Published
2018

42. The basolateral amygdala is essential for rapid escape: A human and rodent study

Author

Terburg, D., Scheggia, D., Triana del Rio, R., Klumpers, F., Ciobanu, A.C., Morgan, B.E., Montoya, E.R., Bos, P.A., Giobellina, G., Burg, E.H. van den, Gelder, B. de, Stein, D.J., Stoop, R., Honk, E.J. van, Terburg, D., Scheggia, D., Triana del Rio, R., Klumpers, F., Ciobanu, A.C., Morgan, B.E., Montoya, E.R., Bos, P.A., Giobellina, G., Burg, E.H. van den, Gelder, B. de, Stein, D.J., Stoop, R., and Honk, E.J. van

Abstract

Contains fulltext : 196504.pdf (publisher's version ) (Open Access), Rodent research delineates how the basolateral amygdala (BLA) and central amygdala (CeA) control defensive behaviors, but translation of these findings to humans is needed. Here, we compare humans with natural-selective bilateral BLA lesions to rats with a chemogenetically silenced BLA. We find, across species, an essential role for the BLA in the selection of active escape over passive freezing during exposure to imminent yet escapable threat (Timm). In response to Timm, BLA-damaged humans showed increased startle potentiation and BLA-silenced rats demonstrated increased startle potentiation, freezing, and reduced escape behavior as compared to controls. Neuroimaging in humans suggested that the BLA reduces passive defensive responses by inhibiting the brainstem via the CeA. Indeed, Timm conditioning potentiated BLA projections onto an inhibitory CeA pathway, and pharmacological activation of this pathway rescued deficient Timm responses in BLA-silenced rats. Our data reveal how the BLA, via the CeA, adaptively regulates escape behavior from imminent threat and that this mechanism is evolutionary conserved across rodents and humans.

Published
2018

45. Physical neglect during childhood alters white matter connectivity in healthy young males

Author

Tendolkar, I., Martensson, J., Kühn, S., Klumpers, F., Fernandez, G.S.E., Tendolkar, I., Martensson, J., Kühn, S., Klumpers, F., and Fernandez, G.S.E.

Abstract

Contains fulltext : 183277.pdf (Publisher’s version ) (Closed access), Background: Childhood adversity (CA) leads to greater vulnerability for psychopathology by causing structural as well as functional brain abnormalities. Recent findings on gray matter effects point towards the importance of identifying CA outcome as a function of different CA types, varying in the dimensions of threat and deprivation. Using diffusion tensor imaging, we investigate whether different forms of CA impact differently on white matter connectivity in a healthy cohort not confounded by other aspects of disease. Methods: In 120 healthy young males, we assessed different forms of maltreatment during childhood with the Childhood Trauma Questionnaire (CTQ). Fractional anisotropy (FA) and mean diffusivity (MD) images were generated and projected onto a white matter skeleton using tract-based spatial statistics. Correlational analysis between FA, MD, and CTQ subscores was then performed using voxelwise statistics. Results: Of all CTQ-subscores, only physical neglect (PN) predicted a decrease of FA but not MD in the bilateral anterior thalamic radiation around the middle frontal gyrus and the right inferior fronto-occipital fasciculus, the inferior longitudinal fasciculus, the cingulum and precuneus. Reduced FA in the posterior cingulum was related to the effects of PN during childhood on anxiety levels at trend level. Conclusions: PN may have severe consequences and should be considered equally important to more active forms of abuse. FA changes, particularly in the cingulum, actually appear to a functional consequence and are linked to trait anxiety, a personality dimension that is suggested to be a transdiagnostic risk factor of affective disorders. Potentially this reveals a mechanistic chain that forms one pathyway from CA to disease.

Published
2018

47. How acute stress may enhance subsequent memory for threat stimuli outside the focus of attention: DLPFC-amygdala decoupling

Author

Luo, Y., Fernandez, G.S.E., Hermans, E., Vogel, S., Zhang, Y., Li, H., Klumpers, F., Luo, Y., Fernandez, G.S.E., Hermans, E., Vogel, S., Zhang, Y., Li, H., and Klumpers, F.

Abstract

Item does not contain fulltext, Stress-related disorders, e.g., anxiety and depression, are characterized by decreased top-down control for distracting information, as well as a memory bias for threatening information. However, it is unclear how acute stress biases mnemonic encoding and leads to prioritized storage of threat-related information even if outside the focus of attention. In the current study, healthy adults (N = 53, all male) were randomly assigned to stress induction using the socially evaluated cold-pressor test (SECPT) or a control condition. Participants performed a task in which they were required to identify a target letter within a string of letters that were either identical to the target and thereby facilitating detection (low distractor load) or mixed with other letters to complicate the search (high load). Either a fearful or neutral face was presented on the background, outside the focus of attention. Twenty-four hours later, participants were asked to perform a surprise recognition memory test for those background faces. Stress induction resulted in increased cortisol and negative subjective mood ratings. Stress did not affect visual search performance, however, participants in the stress group showed stronger memory compared to the control group for fearful faces in the low attentional load condition. Critically, the stress induced memory bias was accompanied by decoupling between amygdala and DLFPC during encoding, which may represent a mechanism for decreased ability to filter task-irrelevant threatening background information. The current study provides a potential neural account for how stress can produce a negative memory bias for threatening information even if presented outside the focus of attention. Despite of an adaptive advantage for survival, such tendencies may ultimately also lead to generalized fear, a possibility requiring additional investigation.

Published
2018

49. Memory contextualization: The role of prefrontal cortex in functional integration across item and context representational regions

Author

Zhang, W., Ast, V.A. van, Klumpers, F., Roelofs, K., Hermans, E., Zhang, W., Ast, V.A. van, Klumpers, F., Roelofs, K., and Hermans, E.

Abstract

Contains fulltext : 183959pub.pdf (publisher's version ) (Open Access), Memory recall is facilitated when retrieval occurs in the original encoding context. This context dependency effect likely results from the automatic binding of central elements of an experience with contextual features (i.e., memory "contextualization") during encoding. However, despite a vast body of research investigating the neural correlates of explicit associative memory, the neural interactions during encoding that predict implicit context-dependent memory remain unknown. Twenty-six participants underwent fMRI during encoding of salient stimuli (faces), which were overlaid onto unique background images (contexts). To index subsequent context-dependent memory, face recognition was tested either in intact or rearranged contexts, after scanning. Enhanced face recognition in congruent relative to incongruent contexts evidenced successful memory contextualization. Overall subsequent memory effects (brain activity predicting whether items were later remembered vs. forgotten) were found in the left inferior frontal gyrus (IFG) and right amygdala. Effective connectivity analyses showed that stronger context-dependent memory was associated with stronger coupling of the left IFG with face- and place-responsive areas, both within and between participants. Our findings indicate an important role for the IFG in integrating information across widespread regions involved in the representation of salient items and contextual features.

Published
2018

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