51 research outputs found

    Skin colour changes during experimentally-induced sickness

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    This project was supported by Swedish foundation for humanities and social sciences and a British Academy Wolfson Foundation Research Professorship grant. AH is supported by a studentship from the Biotechnology and Biological Sciences Research Council.Skin colour may be an important cue to detect sickness in humans but how skin colour changes with acute sickness is currently unknown. To determine possible colour changes, 22 healthy Caucasian participants were injected twice, once with lipopolysaccharide (LPS, at a dose of 2 ng/kg body weight) and once with placebo (saline), in a randomised cross-over design study. Skin colour across 3 arm and 3 face locations was recorded spectrophotometrically over a period of 8 hours in terms of lightness (L∗), redness (a∗) and yellowness (b∗) in a manner that is consistent with human colour perception. In addition, carotenoid status was assessed as we predicted that a decrease it skin yellowness would reflect a drop in skin carotenoids. We found an early change in skin colouration 1-3 hours post LPS injection with facial skin becoming lighter and less red whilst arm skin become darker but also less red and less yellow. The LPS injection also caused a drop in plasma carotenoids from 3 hours onwards. However, the timing of the carotenoid changes was not consistent with the skin colour changes suggesting that other mechanisms, such as a reduction of blood perfusion, oxygenation or composition. This is the first experimental study characterising skin colour associated with acute illness, and shows that changes occur early in the development of the sickness response. Colour changes may serve as a cue to health, prompting actions from others in terms of care-giving or disease avoidance. Specific mechanisms underlying these colour changes require further investigation.PostprintPeer reviewe

    Olfactory cues of naturally occurring systemic inflammation: A pilot study of seasonal allergy

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    Introduction: In an attempt to avoid contact with infectious individuals, humans likely respond to generalised rather than specific markers of disease. Humans may thus perceive a non-infectious individual as socially less attractive if they look (e.g., have facial discoloration), move (e.g., have a slower walking pace), or sound (e.g., sneeze) sick. This pilot study tested whether humans are averse to the body odour of non-infectious individuals with a low-grade systemic inflammation. Methods: We collected the axillary body odour of individuals with severe seasonal allergy (N = 14) and healthy controls (N = 10) during and outside the allergy season and measured serum levels of two inflammatory cytokines (tumor necrosis factor-α, interleukin-5). Independent participants (N = 67) then sampled and rated these odours on intensity and pleasantness. Results: While individuals with seasonal allergy had nominally more unpleasant and intense body odours during the allergy season - relative to outside of the allergy season and to healthy controls - these effects were not significant. When examining immune markers, the change in perceived pleasantness of an individual’s body odour (from out- to inside pollen season), was significantly related to the change in their interleukin-5 levels but not to tumor necrosis factor-α. Discussion: Our findings tentatively suggest that the human olfactory system could be sensitive to inflammation as present in a non-communicable condition. Larger replications are required to determine the role of olfaction in the perception of infectious and non-infectious (e.g., chronic diseases) conditions.publishedVersio

    Beyond the Symptom: The Biology of Fatigue

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    A workshop titled Beyond the Symptom: The Biology of Fatigue was held virtually September 27-28, 2021. It was jointly organized by the Sleep Research Society and the Neurobiology of Fatigue Working Group of the NIH Blueprint Neuroscience Research Program. For access to the presentations and video recordings, see: https://neuroscienceblueprint.nih.gov/about/event/beyond-symptom-biology-fatigue. The goals of this workshop were to bring together clinicians and scientists who use a variety of research approaches to understand fatigue in multiple conditions and to identify key gaps in our understanding of the biology of fatigue. This workshop summary distills key issues discussed in this workshop and provides a list of promising directions for future research on this topic. We do not attempt to provide a comprehensive review of the state of our understanding of fatigue, nor to provide a comprehensive reprise of the many excellent presentations. Rather, our goal is to highlight key advances and to focus on questions and future approaches to answering them

    Fundamental social motives measured across forty-two cultures in two waves

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    How does psychology vary across human societies? The fundamental social motives framework adopts an evolutionary approach to capture the broad range of human social goals within a taxonomy of ancestrally recurring threats and opportunities. These motives—self-protection, disease avoidance, affiliation, status, mate acquisition, mate retention, and kin care—are high in fitness relevance and everyday salience, yet understudied cross-culturally. Here, we gathered data on these motives in 42 countries (N = 15,915) in two cross-sectional waves, including 19 countries (N = 10,907) for which datawere gathered in both waves. Wave 1 was collected from mid-2016 through late 2019 (32 countries, N = 8,998; 3,302 male, 5,585 female; Mage = 24.43, SD = 7.91). Wave 2 was collected from April through November 2020, during the COVID-19 pandemic (29 countries, N = 6,917; 2,249 male, 4,218 female; Mage = 28.59, SD = 11.31). These data can be used to assess differences and similarities in people’s fundamental social motives both across and within cultures, at different time points, and in relation to other commonly studied cultural indicators and outcomes

    LPSFatigue manuscript (Essholm)

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    Kinect application - gait and posture analysis

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    Relationship of chronic low-grade inflammation with fatigue and cognitive alterations in patients suffering from metabolic disorders

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    Les cytokines, produites lors de l’activation du système immunitaire, ont la capacité d’agir au niveau du système nerveux central et d’induire diverses altérations comportementales. Lorsque l’activation du système de l’immunité innée devient chronique, ces altérations comportementales peuvent évoluer en véritables symptômes neuropsychiatriques. La physiopathologie des symptômes neuropsychiatriques qui se développent dans un contexte d’inflammation chronique à bas bruit, c’est-à-dire caractérisé par une activation chronique des processus immunitaires mais à un niveau relativement faible, est peu connue et reste à déterminer. L’implication de l’inflammation chronique à bas bruit dans les symptômes de fatigue et les altérations cognitives constitue l’élément d’étude principal de ce travail de thèse. Les troubles métaboliques, tels que l’obésité et le diabète de type 2, sont de bons modèles pour une telle étude. Ces deux pathologies sont en effet caractérisées par une inflammation chronique à bas bruit qui proviendrait, au moins en partie, du tissu adipeux. De plus, la fatigue et les altérations cognitives sont fréquentes chez les patients souffrant de troubles métaboliques. Compte tenu du rôle connu de l’inflammation dans la physiopathologie de ces altérations comportementales, leur développement dans des contextes de troubles métaboliques pourrait également être lié à l’activation chronique à bas bruit de processus inflammatoires. Différents objectifs ont été définis pour tester cette hypothèse : 1) caractériser et spécifier les symptômes de fatigue et les altérations cognitives chez des patients diabétiques ou obèses ; 2) évaluer la relation entre inflammation systémique et état inflammatoire du tissu adipeux ; 3) étudier l’association de l’inflammation chronique à bas bruit avec les symptômes de fatigue et les altérations cognitives des patients souffrant de troubles métaboliques. Nos résultats indiquent que la fatigue, en particulier la fatigue générale et physique, représente une caractéristique fondamentale des troubles métaboliques. Des perturbations cognitives, se traduisant par un ralentissement psychomoteur dans un test de temps de réaction ainsi qu’une altération de performance dans une tâche de planification spatiale, ont également été décelées chez les patients diabétiques de type 2, particulièrement ceux sous insulinothérapie, et chez les patients obèses. Des altérations mineures étaient également mesurées dans une tâche d’empan spatial rétrograde chez les patients obèses. En ce qui concerne les données biologiques, nos résultats indiquent diverses associations entre l’inflammation systémique et l’expression des marqueurs inflammatoires (cytokines inflammatoires, dont le MCP1, et marqueurs des cellules T) dans le tissu adipeux viscéral des patients obèses. De façon intéressante, l’inflammation systémique à bas bruit était associée aux dimensions de fatigue (générale, mentale, réduction des activités et de la motivation) et aux altérations de performance dans les tests ciblant les fonctions exécutives. Dans l’ensemble, ces résultats supportent l’hypothèse de l’implication des macrophages et des lymphocytes T du tissu adipeux dans l’état inflammatoire systémique associé à l’obésité. Il suggère en outre que l’inflammation systémique à bas bruit pourrait participer au développement de la fatigue et des altérations cognitives chez les patients souffrant de troubles métaboliques. Ce travail de thèse offre une caractérisation précise des symptômes de fatigue et des altérations cognitives associées aux troubles métaboliques. En outre, ce travail apporte d’importantes informations sur les relations de l’inflammation chronique à bas bruit avec ces symptômes, et permet d’affiner les hypothèses relatives à l’implication de processus inflammatoires dans la physiopathologie de ces altérations.Cytokines produced during the activation of the immune system have the ability to act within the central nervous system and to induce a large number of behavioral alterations. When the activation of immune system becomes chronic and unregulated, these behavioral alterations may lead to the development of neuropsychiatric symptoms. The pathophysiology of neuropsychiatric symptoms that develop in conditions of chronic low-grade inflammation context (i.e., characterized by a chronic but low activation of inflammatory processes), remains unknown. The main aim of this thesis was to investigate the involvement of low-grade inflammation in the development of fatigue symptoms and cognitive alterations in patients with metabolic disorders including obesity and type 2 diabetes. These conditions are characterized by a chronic low-grade inflammatory state, manifesting by higher blood concentrations of inflammatory factors. This inflammatory state would originate, at least partially, from the adipose tissue. Moreover, fatigue symptoms and cognitive alterations are common in metabolic disorders. Given the role of inflammation in the physiopathology of these symptoms, their development could also rely on chronic low-grade inflammatory processes. Several objectives were defined to test this hypothesis: 1) to characterize fatigue symptoms and cognitive alterations in obese and diabetic patients; 2) to assess the relationship of systemic inflammation with the inflammatory state of the adipose tissue; and 3) to investigate the association of low-grade inflammation with fatigue symptoms and cognitive alterations in patients with metabolic disorders. Fatigue symptoms and cognitive function were respectively assessed using the multidimensional fatigue inventory (MFI) and the neuropsychological tests automated battery CANTAB in diabetic patients (type 1 and type 2) and in obese patients before and after bariatric surgery. A control group was included for each model (obesity and type 2 diabetes). Circulating concentrations of inflammatory markers, as well as expression of inflammatory markers in the visceral adipose tissue of obese patients, were measured. Our results indicate that fatigue symptoms, especially in the dimensions of general and physical fatigue, represent fundamental characteristics of patients suffering from metabolic disorders. In addition, cognitive alterations (psychomotor slowing and alterations in spatial planning performance) were measured in type 2 diabetic patients, more particularly those under insulin treatment, and in obese patients. Slight alterations in the test of backward spatial span were measured in obese patients. With respect to biological data, our results indicate significant relationships between systemic inflammation and inflammatory markers (inflammatory cytokines, including MCP1, and T-cell markers) in the visceral adipose tissue of obese patients. Interestingly, chronic low-grade inflammation was associated with fatigue symptoms (general fatigue, mental fatigue, reduced activity and motivation) and performance alterations in tests assessing executive functions. Altogether, these data support the hypothesis of the involvement of the adipose macrophages and T lymphocytes in the systemic inflammatory state associated with obesity. Moreover, these results suggest that systemic low-grade inflammation associated with metabolic disorders may contribute to the physiopathology of fatigue and cognitive alterations in these conditions. In conclusion, these studies provide a precise characterization of fatigue symptoms and cognitive alterations associated with metabolic disorders, such as obesity or type 2 diabetes. In addition, this thesis work gives interesting information about the relationships of chronic low-grade inflammation and fatigue and cognitive symptoms, and refines hypotheses regarding the involvement of inflammatory processes in the physiopathology of these symptoms in patients with diabetes or obesity

    Regulation of emotions during experimental endotoxemia

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    Relationship of chronic low-grade inflammation with fatigue and cognitive alterations in patients suffering from metabolic disorders

    No full text
    Les cytokines, produites lors de l’activation du système immunitaire, ont la capacité d’agir au niveau du système nerveux central et d’induire diverses altérations comportementales. Lorsque l’activation du système de l’immunité innée devient chronique, ces altérations comportementales peuvent évoluer en véritables symptômes neuropsychiatriques. La physiopathologie des symptômes neuropsychiatriques qui se développent dans un contexte d’inflammation chronique à bas bruit, c’est-à-dire caractérisé par une activation chronique des processus immunitaires mais à un niveau relativement faible, est peu connue et reste à déterminer. L’implication de l’inflammation chronique à bas bruit dans les symptômes de fatigue et les altérations cognitives constitue l’élément d’étude principal de ce travail de thèse. Les troubles métaboliques, tels que l’obésité et le diabète de type 2, sont de bons modèles pour une telle étude. Ces deux pathologies sont en effet caractérisées par une inflammation chronique à bas bruit qui proviendrait, au moins en partie, du tissu adipeux. De plus, la fatigue et les altérations cognitives sont fréquentes chez les patients souffrant de troubles métaboliques. Compte tenu du rôle connu de l’inflammation dans la physiopathologie de ces altérations comportementales, leur développement dans des contextes de troubles métaboliques pourrait également être lié à l’activation chronique à bas bruit de processus inflammatoires. Différents objectifs ont été définis pour tester cette hypothèse : 1) caractériser et spécifier les symptômes de fatigue et les altérations cognitives chez des patients diabétiques ou obèses ; 2) évaluer la relation entre inflammation systémique et état inflammatoire du tissu adipeux ; 3) étudier l’association de l’inflammation chronique à bas bruit avec les symptômes de fatigue et les altérations cognitives des patients souffrant de troubles métaboliques. Nos résultats indiquent que la fatigue, en particulier la fatigue générale et physique, représente une caractéristique fondamentale des troubles métaboliques. Des perturbations cognitives, se traduisant par un ralentissement psychomoteur dans un test de temps de réaction ainsi qu’une altération de performance dans une tâche de planification spatiale, ont également été décelées chez les patients diabétiques de type 2, particulièrement ceux sous insulinothérapie, et chez les patients obèses. Des altérations mineures étaient également mesurées dans une tâche d’empan spatial rétrograde chez les patients obèses. En ce qui concerne les données biologiques, nos résultats indiquent diverses associations entre l’inflammation systémique et l’expression des marqueurs inflammatoires (cytokines inflammatoires, dont le MCP1, et marqueurs des cellules T) dans le tissu adipeux viscéral des patients obèses. De façon intéressante, l’inflammation systémique à bas bruit était associée aux dimensions de fatigue (générale, mentale, réduction des activités et de la motivation) et aux altérations de performance dans les tests ciblant les fonctions exécutives. Dans l’ensemble, ces résultats supportent l’hypothèse de l’implication des macrophages et des lymphocytes T du tissu adipeux dans l’état inflammatoire systémique associé à l’obésité. Il suggère en outre que l’inflammation systémique à bas bruit pourrait participer au développement de la fatigue et des altérations cognitives chez les patients souffrant de troubles métaboliques. Ce travail de thèse offre une caractérisation précise des symptômes de fatigue et des altérations cognitives associées aux troubles métaboliques. En outre, ce travail apporte d’importantes informations sur les relations de l’inflammation chronique à bas bruit avec ces symptômes, et permet d’affiner les hypothèses relatives à l’implication de processus inflammatoires dans la physiopathologie de ces altérations.Cytokines produced during the activation of the immune system have the ability to act within the central nervous system and to induce a large number of behavioral alterations. When the activation of immune system becomes chronic and unregulated, these behavioral alterations may lead to the development of neuropsychiatric symptoms. The pathophysiology of neuropsychiatric symptoms that develop in conditions of chronic low-grade inflammation context (i.e., characterized by a chronic but low activation of inflammatory processes), remains unknown. The main aim of this thesis was to investigate the involvement of low-grade inflammation in the development of fatigue symptoms and cognitive alterations in patients with metabolic disorders including obesity and type 2 diabetes. These conditions are characterized by a chronic low-grade inflammatory state, manifesting by higher blood concentrations of inflammatory factors. This inflammatory state would originate, at least partially, from the adipose tissue. Moreover, fatigue symptoms and cognitive alterations are common in metabolic disorders. Given the role of inflammation in the physiopathology of these symptoms, their development could also rely on chronic low-grade inflammatory processes. Several objectives were defined to test this hypothesis: 1) to characterize fatigue symptoms and cognitive alterations in obese and diabetic patients; 2) to assess the relationship of systemic inflammation with the inflammatory state of the adipose tissue; and 3) to investigate the association of low-grade inflammation with fatigue symptoms and cognitive alterations in patients with metabolic disorders. Fatigue symptoms and cognitive function were respectively assessed using the multidimensional fatigue inventory (MFI) and the neuropsychological tests automated battery CANTAB in diabetic patients (type 1 and type 2) and in obese patients before and after bariatric surgery. A control group was included for each model (obesity and type 2 diabetes). Circulating concentrations of inflammatory markers, as well as expression of inflammatory markers in the visceral adipose tissue of obese patients, were measured. Our results indicate that fatigue symptoms, especially in the dimensions of general and physical fatigue, represent fundamental characteristics of patients suffering from metabolic disorders. In addition, cognitive alterations (psychomotor slowing and alterations in spatial planning performance) were measured in type 2 diabetic patients, more particularly those under insulin treatment, and in obese patients. Slight alterations in the test of backward spatial span were measured in obese patients. With respect to biological data, our results indicate significant relationships between systemic inflammation and inflammatory markers (inflammatory cytokines, including MCP1, and T-cell markers) in the visceral adipose tissue of obese patients. Interestingly, chronic low-grade inflammation was associated with fatigue symptoms (general fatigue, mental fatigue, reduced activity and motivation) and performance alterations in tests assessing executive functions. Altogether, these data support the hypothesis of the involvement of the adipose macrophages and T lymphocytes in the systemic inflammatory state associated with obesity. Moreover, these results suggest that systemic low-grade inflammation associated with metabolic disorders may contribute to the physiopathology of fatigue and cognitive alterations in these conditions. In conclusion, these studies provide a precise characterization of fatigue symptoms and cognitive alterations associated with metabolic disorders, such as obesity or type 2 diabetes. In addition, this thesis work gives interesting information about the relationships of chronic low-grade inflammation and fatigue and cognitive symptoms, and refines hypotheses regarding the involvement of inflammatory processes in the physiopathology of these symptoms in patients with diabetes or obesity
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