109 research outputs found

    Neural correlates of ostracism in transgender persons living according to their gender identity : a potential risk marker for psychopathology?

    Get PDF
    Background. Stigmatization in society carries a high risk for development of psychopathology. Transgender persons are at particularly high risk for such stigmatization and social rejection by others. However, the neural correlates of ostracism in this group have not been captured. Method. Twenty transgender men (TM, female-to-male) and 19 transgender women (TW, male-to-female) already living in their gender identity and 20 cisgender men (CM) and 20 cisgender women (CW) completed a cyberball task assessing both exclusion and re-inclusion during functional magnetic resonance imaging (fMRI). Results. During psychosocial stress between-group differences were found in the dorsal and ventral anterior cingulate cortex (ACC) and the inferior frontal gyrus (IFG). Patterns were consistent with sex assigned at birth, i.e. CW showed greater activation in dorsal ACC and IFG relative to CM and TW. During re-inclusion, transgender persons showed greater ventral ACC activity relative to CW, possibly indicating persistent feelings of exclusion. Functional connectivity analyses supported these findings but showed a particularly altered functional connectivity between ACC and lateral prefrontal cortex in TM, which may suggest reduced emotional regulation to the ostracism experience in this group. Depressive symptoms or hormonal levels were not associated with these findings. Conclusion. The results bear implications for the role of social exclusion in development of mental health problems in socially marginalized groups

    Prenatal programming of later performance in dairy cattle = Prenatale programmering van latere prestaties bij melkvee

    Get PDF
    Prenatal programming refers to the fact that insults during pre- and early postnatal life can have long-term consequences on the health and performance. In diary cattle, physiological conditions, such as maternal body growth, milk yield and parity, and environmental conditions during gestation can create a suboptimal environment for the developing fetus. As a consequence, adaptations of the placental and newborn phenotype take place. In addition, potential long-term effects of prenatal programming influence body growth, fertility, milk yield and longevity in dairy cows. These results suggest that the current management systems may pose a risk for the long-term health and performance of dairy cattle. Hence, in management practices, all pre- and postnatal aspects should carefully be considered in order to raise healthier and more productive dairy cows

    Gender specific neural correlates of emotion and cognition

    Get PDF
    Evidence suggests that regions within the anterior cingulate cortex (ACC) are sensitive both to emotional and cognitive task demands. This experiment asked whether emotional and cognitive demands are processed separately by ventral and dorsal regions within the ACC, respectively. Results revealed significant individual variability between changes in anxiety and response times with practice during performance of a verb generation task. Correlational analyses of the functional magnetic resonance imaging (fMRI) data were inconclusive. However, exploratory analyses suggest that while the ventral and dorsal subdivisions of the medial prefrontal cortex, which encompasses the ACC, make specialized contributions to the processing of emotion and cognition, respectively, the two subdivisions also appear to interact. These analyses also suggest that there could be a difference in how women and men balance the competing demands of emotion and cognition that might be related to differences in self-concept and neural activity in the default mode network

    Adolescents’ neural reactivity to acute psychosocial stress: dysfunctional regulation habits are linked to temporal gyrus response

    Get PDF
    Mid-adolescence is a critical time for the development of stress-related disorders and it is associated with significant social vulnerability. However, little is known about normative neural processes accompanying psychosocial stress at this time. Previous research found that emotion regulation strategies critically influence the relationship between stress and the development of psychiatric symptoms during adolescence. Using functional magnetic resonance imaging (fMRI), we examined neural responses to acute stress and analyzed whether the tendency to use adaptive or maladaptive emotion regulation strategies is related to neural and autonomic stress responses. Results show large linear activation increases from low to medium to high stress levels mainly in medial prefrontal, insulae and temporal areas. Caudate and subgenual anterior cingulate cortex, neural areas related to reward and affective valuations, showed linearly decreasing activation. In line with our hypothesis, the current adolescent neural stress profile resembled social rejection and was characterized by pronounced activation in insula, angular and temporal cortices. Moreover, results point to an intriguing role of the anterior temporal gyrus. Stress-related activity in the anterior temporal gyrus was positively related to maladaptive regulation strategies and stress-induced autonomic activity. Maladaptive coping might increase the social threat and reappraisal load of a stressor, relating to higher stress sensitivity of anterior temporal cortices

    Dynamic signatures of stress

    Get PDF

    Neuroimaging studies of psychological interventions for mood and anxiety disorders: empirical and methodological review.

    Get PDF
    This article reviews the methods and results of published neuroimaging studies of the effects of structured psychological interventions for mood and anxiety disorders. The results are consistent with neural models of improved affective- and self-regulation, as evidenced by psychotherapeutic modulation of brain metabolic activity within the dorsolateral, ventrolateral, and medial prefrontal cortices, the anterior cingulate, the posterior cingulate/precuneus, and the insular cortices. Specific recommendations for future studies are outlined, and the clinical and theoretical significance of this research is discussed

    Psychosocial stress affects the acquisition of cerebellar-dependent sensorimotor adaptation

    Get PDF
    Despite being overlooked in theoretical models of stress-related disorders, differences in cerebellar structure and function are consistently reported in studies of individuals exposed to current and early-life stressors. However, the mediating processes through which stress impacts upon cerebellar function are currently unknown. The aim of the current experiment was to test the effects of experimentally-induced acute stress on cerebellar functioning, using a classic, forward saccadic adaptation paradigm in healthy, young men and women. Stress induction was achieved by employing the Montreal Imaging Stress Task (MIST), a task employing mental arithmetic and negative social feedback to generate significant physiological and endocrine stress responses. Saccadic adaptation was elicited using the double-step target paradigm. In the experiment, 48 participants matched for gender and age were exposed to either a stress (n = 25) or a control (n = 23) condition. Saliva for cortisol analysis was collected before, immediately after, and 10, and 30 min after the MIST. Saccadic adaptation was assessed approximately 10 min after stress induction, when cortisol levels peaked. Participants in the stress group reported significantly more stress symptoms and exhibited greater total cortisol output compared to controls. The stress manipulation was associated with slower learning rates in the stress group, while control participants acquired adaptation faster. Learning rates were negatively associated with cortisol output and mood disturbance. Results suggest that experimentally-induced stress slowed acquisition of cerebellar-dependent saccadic adaptation, related to increases in cortisol output. These ‘proof-of-principle’ data demonstrate that stress modulates cerebellar-related functions

    Altered Relationship between Cortisol Response to Social Stress and Mediotemporal Function during Fear Processing in People at Clinical High Risk for Psychosis: A Preliminary Report

    Get PDF
    Evidence suggests that people at Clinical High Risk for Psychosis (CHR) have a blunted cortisol response to stress and altered mediotemporal activation during fear processing, which may be neuroendocrine–neuronal signatures of maladaptive threat responses. However, whether these facets are associated with each other and how this relationship is affected by cannabidiol treatment is unknown. We examined the relationship between cortisol response to social stress and mediotemporal function during fear processing in healthy people and in CHR patients. In exploratory analyses, we investigated whether treatment with cannabidiol in CHR individuals could normalise any putative alterations in cortisol-mediotemporal coupling. 33 CHR patients were randomised to 600 mg cannabidiol or placebo treatment. Healthy controls (n = 19) did not receive any drug. Mediotemporal function was assessed using a fearful face-processing functional magnetic resonance imaging paradigm. Serum cortisol and anxiety were measured immediately following the Trier Social Stress Test. The relationship between cortisol and mediotemporal blood-oxygen-level-dependent haemodynamic response was investigated using linear regression. In healthy controls, there was a significant negative relationship between cortisol and parahippocampal activation (p = 0.023), such that the higher the cortisol levels induced by social stress, the lower the parahippocampal activation (greater deactivation) during fear processing. This relationship differed significantly between the control and placebo groups (p = 0.033), but not between the placebo and cannabidiol groups (p = 0.67). Our preliminary findings suggest that the parahippocampal response to fear processing may be associated with the neuroendocrine (cortisol) response to experimentally induced social stress, and that this relationship may be altered in patients at clinical high risk for psychosis.</p

    Common physiological aspects and interconnections between stress and pain

    Get PDF
    Introduction: Stress and pain are phenomena with similar conceptual explanations and they both play an essential role in our survival as individuals. They are a challenge to the organism's adaptive capacities and homeostasis processes. The physiological aspects of the two phenomena reveal common neurobiological origins and multiple interconnections.Aim: The purpose of the article is to conceptualize and structure evidence relating to the common physiological aspects of pain and stress phenomena and to analyze their interconnections.Materials and Methods: A review and critical analysis of relevant literature.Results: The relationship between stress and pain has been studied. Stress participates in the manifestation of acute pain and maintains the processes of its chronicity. It has been hypothesized that the different stress models in the pathogenesis of pain are due to the influence of factors associated with the psychological aspects of stress.Conclusion: Most authors support the idea that physiological responses to stress and pain are relatively nonspecific. They are influenced by many factors related to current physical condition, past experiences of stressful situations and pain, emotional (fear, anxiety, depression) and cognitive factors involved in generating complex programs, aimed at restoring homeostasis. The stress model of pain is a manifestation of the interconnections and the potential interactions between the two phenomena. Data analysis provokes questions and offers prospects for more comprehensive studies related to exploration of the causal relationship between the two phenomena
    • …
    corecore