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This e-book brings together scholars in both the neurosciences and organizational sciences who have adopted various approaches to study the cognitive mechanisms mediating the social behavior that we see within organizations. Such an approach has been termed by ourselves, and others, as ‘organisational cognitive neuroscience’. In recent years there has been a veritable increase in studies that have explored the cognitive mechanisms driving such behaviors, and much progress has been made in understanding the neural underpinnings of processes such as financial exchange, risk awareness and even leadership. However, while these studies are informative and add to our understanding of human cognition they fall short of providing evidence-based recommendations for practice. Specifically, we address the broader issue of how the neuroscientific study of such core social behaviors can be used to improve the very way that we work. To address these gaps in our understanding the chapters in this book serve as a platform that allows scholars in both the neurosciences and the organizational sciences to highlight the work that spans across these two fields. The consolidation of these two fields also serves to highlight the utility of a singular organizational cognitive neuroscience. This is a fundamentally important outcome of the book as the application of neuroscience to address economically relevant behaviors has seen a variety of fields evolve in their own right, such as neuromarketing, neuroeconomics and so forth. The use of neuro-scientific technologies,in particular fMRI, has indeed led to a bewildering (and somewhat suffocating) proliferation of new approaches, however, the speed of such developments demands that we must proceed carefully with such ventures or risk some fundamental mistakes. The book that you now hold will consolidates these new neuroscience based approaches and in doing so highlight the importance of this approach in helping us to understand human social behavior in general. Taken together the chapters provide a framework for scholars within the neurosciences who wish to explore the further the opportunities that the study of organisational behavior may provide.
Brain --- Neuroscience --- organisations --- Functional Brain imaging --- Genetics --- neuroeconomics --- neuromarketing --- MEG --- Organisational Cognitive Neuroscience society --- Marketing
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This e-book brings together scholars in both the neurosciences and organizational sciences who have adopted various approaches to study the cognitive mechanisms mediating the social behavior that we see within organizations. Such an approach has been termed by ourselves, and others, as ‘organisational cognitive neuroscience’. In recent years there has been a veritable increase in studies that have explored the cognitive mechanisms driving such behaviors, and much progress has been made in understanding the neural underpinnings of processes such as financial exchange, risk awareness and even leadership. However, while these studies are informative and add to our understanding of human cognition they fall short of providing evidence-based recommendations for practice. Specifically, we address the broader issue of how the neuroscientific study of such core social behaviors can be used to improve the very way that we work. To address these gaps in our understanding the chapters in this book serve as a platform that allows scholars in both the neurosciences and the organizational sciences to highlight the work that spans across these two fields. The consolidation of these two fields also serves to highlight the utility of a singular organizational cognitive neuroscience. This is a fundamentally important outcome of the book as the application of neuroscience to address economically relevant behaviors has seen a variety of fields evolve in their own right, such as neuromarketing, neuroeconomics and so forth. The use of neuro-scientific technologies,in particular fMRI, has indeed led to a bewildering (and somewhat suffocating) proliferation of new approaches, however, the speed of such developments demands that we must proceed carefully with such ventures or risk some fundamental mistakes. The book that you now hold will consolidates these new neuroscience based approaches and in doing so highlight the importance of this approach in helping us to understand human social behavior in general. Taken together the chapters provide a framework for scholars within the neurosciences who wish to explore the further the opportunities that the study of organisational behavior may provide.
Brain --- Neuroscience --- organisations --- Functional Brain imaging --- Genetics --- neuroeconomics --- neuromarketing --- MEG --- Organisational Cognitive Neuroscience society --- Marketing
Choose an application
This e-book brings together scholars in both the neurosciences and organizational sciences who have adopted various approaches to study the cognitive mechanisms mediating the social behavior that we see within organizations. Such an approach has been termed by ourselves, and others, as ‘organisational cognitive neuroscience’. In recent years there has been a veritable increase in studies that have explored the cognitive mechanisms driving such behaviors, and much progress has been made in understanding the neural underpinnings of processes such as financial exchange, risk awareness and even leadership. However, while these studies are informative and add to our understanding of human cognition they fall short of providing evidence-based recommendations for practice. Specifically, we address the broader issue of how the neuroscientific study of such core social behaviors can be used to improve the very way that we work. To address these gaps in our understanding the chapters in this book serve as a platform that allows scholars in both the neurosciences and the organizational sciences to highlight the work that spans across these two fields. The consolidation of these two fields also serves to highlight the utility of a singular organizational cognitive neuroscience. This is a fundamentally important outcome of the book as the application of neuroscience to address economically relevant behaviors has seen a variety of fields evolve in their own right, such as neuromarketing, neuroeconomics and so forth. The use of neuro-scientific technologies,in particular fMRI, has indeed led to a bewildering (and somewhat suffocating) proliferation of new approaches, however, the speed of such developments demands that we must proceed carefully with such ventures or risk some fundamental mistakes. The book that you now hold will consolidates these new neuroscience based approaches and in doing so highlight the importance of this approach in helping us to understand human social behavior in general. Taken together the chapters provide a framework for scholars within the neurosciences who wish to explore the further the opportunities that the study of organisational behavior may provide.
Brain --- Neuroscience --- organisations --- Functional Brain imaging --- Genetics --- neuroeconomics --- neuromarketing --- MEG --- Organisational Cognitive Neuroscience society --- Marketing --- Brain --- Neuroscience --- organisations --- Functional Brain imaging --- Genetics --- neuroeconomics --- neuromarketing --- MEG --- Organisational Cognitive Neuroscience society --- Marketing
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"The brain sciences are influencing our understanding of human behavior as never before, from neuropsychiatry and neuroeconomics to neurotheology and neuroaesthetics. Many now believe that the brain is what makes us human, and it seems that neuroscientists are poised to become the new experts in the management of human conduct. Neuro describes the key developments--theoretical, technological, economic, and biopolitical--that have enabled the neurosciences to gain such traction outside the laboratory. It explores the ways neurobiological conceptions of personhood are influencing everything from child rearing to criminal justice, and are transforming the ways we "know ourselves" as human beings. In this emerging neuro-ontology, we are not "determined" by our neurobiology: on the contrary, it appears that we can and should seek to improve ourselves by understanding and acting on our brains. Neuro examines the implications of this emerging trend, weighing the promises against the perils, and evaluating some widely held concerns about a neurobiological "colonization" of the social and human sciences. Despite identifying many exaggerated claims and premature promises, Neuro argues that the openness provided by the new styles of thought taking shape in neuroscience, with its contemporary conceptions of the neuromolecular, plastic, and social brain, could make possible a new and productive engagement between the social and brain sciences."--Publisher's description.
Neuropsychology. --- Neurophysiology --- Psychophysiology --- Neuropsychology --- brein --- hersenen --- neurowetenschappen --- Brain --- Neurosciences --- cerveaux --- neurosciences --- methods --- physiopathology --- Neuropsychologie --- Cognitive psychology --- amygdala. --- animal experiments. --- animal models. --- artificiality. --- behavioral research. --- biological processes. --- brain activation. --- brain function. --- brain imaging data. --- brain imaging. --- brain science. --- brain size. --- brain structure. --- clinical medicine. --- cognition. --- criminal conduct. --- criminal justice system. --- emotion. --- environmental influences. --- evolution. --- functional brain imaging. --- gene expression. --- genomics. --- human antisocial behavior. --- human behavior. --- human brain. --- human cognition. --- human sciences. --- mental illness. --- mental life. --- mental processes. --- mental states. --- molecules. --- mouse brain. --- nerve development. --- nervous system. --- neural activity. --- neural mechanisms. --- neuroaesthetics. --- neurobiological evidence. --- neurobiological self. --- neurobiology. --- neuroeconomics. --- neuromolecular brain. --- neuron regeneration. --- neuronal circuits. --- neuropsychiatry. --- neuroscience. --- neurotheology. --- orbital frontal cortex. --- plastic brain. --- plasticity. --- psychiatric classification. --- psychiatric diagnosis. --- psychiatric disorders. --- psychiatric research. --- psychiatry. --- psychology. --- reductionist approach. --- risk assessment. --- risk management. --- risk reduction. --- self-management. --- self-understanding. --- selfhood. --- social brain hypothesis. --- social brain. --- social groups. --- social sciences. --- sociality. --- somatic individuality. --- synaptic plasticity. --- temporal cortex. --- volition.
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The prevalence of obesity and its comorbidities, particularly type 2 diabetes, cardiovascular and hepatic disease and certain cancers, continues to rise worldwide. Paradoxically, despite an increasingly obesogenic environment, particularly in Western societies, undernutrition is also extremely common. The application of novel, sophisticated techniques, particularly related to imaging and molecular biology, has substantially advanced our understanding of the mechanisms controlling appetite and energy intake. This has led to a redefinition of many concepts, including the relative importance of central versus peripheral mechanisms, recognising that the gastrointestinal (GI) tract, particularly gut hormones, plays a critical role. Given the major advance in knowledge in the field, this Special Issue provides a comprehensive overview of the GI mechanisms underlying the regulation of appetite and energy intake, as a series of definitive reviews by international authorities. The reviews address gut-related mechanisms, including nutrient sensing, gut hormones and GI motility, gut-brain communication, including the roles of the vagus and the modulation of reward perception, the roles of diet and the microbiota, as well as the abnormalities associated with eating disorders, specifically obesity and anorexia of ageing, and the beneficial effects of bariatric surgery. The reviews cover both preclinical research and studies in humans, and are complemented by a number of important original papers.
Medicine --- lixisenatide --- intragastric meal retention --- energy intake --- type 2 diabetes --- obesity --- amino acid --- isoleucine --- chronic supplementation --- energy expenditure --- oral glucose tolerance test --- glycaemic control --- gastric emptying breath test --- endocannabinoid --- cannabinoid CB1 receptor --- gut-brain --- intestine --- western diet --- preference --- whey protein --- gastric emptying --- appetite --- lifecourse --- gut hormones --- hunger --- protein --- TAS2R5 --- TAS2R39 --- TAS2R14 --- agonist --- food intake --- GLP1 --- CCK --- PYY --- miniature pig --- pig model --- functional brain imaging --- molecular imaging --- vagal afferents --- single fiber recording --- insulin resistance --- GLP-1r --- gastric barostat --- scintigraphy --- meal ingestion --- postprandial responses --- hedonic sensations --- homeostatic sensations --- abdominal wall activity --- abdominal distension --- taste --- fat --- carbohydrate --- bariatric surgery --- GLP-1 --- ghrelin --- Roux-en-Y gastric bypass --- gastric band --- sleeve gastrectomy --- circadian --- gastrointestinal tract --- enteroendocrine cells --- chemosensory --- GIP --- nutrients --- hormones --- food ingestion --- digestion --- satiety --- digestive well-being --- functional gastrointestinal disorders --- postprandial symptoms --- brainstem --- vagus --- feeding --- gastrointestinal --- cue reactivity --- meal anticipation --- motivation --- nutrient preference --- flavor --- aversion --- bile acids --- TGR-5 --- FXR --- gastrointestinal hormones --- body weight --- gastric accommodation --- satiation --- CB1 receptor --- gut-brain --- reward --- aging --- whey --- anorexia --- supplements --- sarcopenia --- nutrient sensing --- enteroendocrine cells (EECs) --- appetite regulation --- G-protein coupled receptors (GPCRs) --- bitter substances --- gastric motor function --- postprandial blood glucose --- preclinical studies --- human studies --- texture --- oro-sensory exposure --- sensory science --- cephalic responses --- brain areas --- brain stem --- weight management --- intestinal brake --- duodenal jejunal and ileal brake --- tastants --- circadian clock --- gastric bypass surgery --- microbiome --- hypothalamus --- lixisenatide --- intragastric meal retention --- energy intake --- type 2 diabetes --- obesity --- amino acid --- isoleucine --- chronic supplementation --- energy expenditure --- oral glucose tolerance test --- glycaemic control --- gastric emptying breath test --- endocannabinoid --- cannabinoid CB1 receptor --- gut-brain --- intestine --- western diet --- preference --- whey protein --- gastric emptying --- appetite --- lifecourse --- gut hormones --- hunger --- protein --- TAS2R5 --- TAS2R39 --- TAS2R14 --- agonist --- food intake --- GLP1 --- CCK --- PYY --- miniature pig --- pig model --- functional brain imaging --- molecular imaging --- vagal afferents --- single fiber recording --- insulin resistance --- GLP-1r --- gastric barostat --- scintigraphy --- meal ingestion --- postprandial responses --- hedonic sensations --- homeostatic sensations --- abdominal wall activity --- abdominal distension --- taste --- fat --- carbohydrate --- bariatric surgery --- GLP-1 --- ghrelin --- Roux-en-Y gastric bypass --- gastric band --- sleeve gastrectomy --- circadian --- gastrointestinal tract --- enteroendocrine cells --- chemosensory --- GIP --- nutrients --- hormones --- food ingestion --- digestion --- satiety --- digestive well-being --- functional gastrointestinal disorders --- postprandial symptoms --- brainstem --- vagus --- feeding --- gastrointestinal --- cue reactivity --- meal anticipation --- motivation --- nutrient preference --- flavor --- aversion --- bile acids --- TGR-5 --- FXR --- gastrointestinal hormones --- body weight --- gastric accommodation --- satiation --- CB1 receptor --- gut-brain --- reward --- aging --- whey --- anorexia --- supplements --- sarcopenia --- nutrient sensing --- enteroendocrine cells (EECs) --- appetite regulation --- G-protein coupled receptors (GPCRs) --- bitter substances --- gastric motor function --- postprandial blood glucose --- preclinical studies --- human studies --- texture --- oro-sensory exposure --- sensory science --- cephalic responses --- brain areas --- brain stem --- weight management --- intestinal brake --- duodenal jejunal and ileal brake --- tastants --- circadian clock --- gastric bypass surgery --- microbiome --- hypothalamus
Choose an application
The prevalence of obesity and its comorbidities, particularly type 2 diabetes, cardiovascular and hepatic disease and certain cancers, continues to rise worldwide. Paradoxically, despite an increasingly obesogenic environment, particularly in Western societies, undernutrition is also extremely common. The application of novel, sophisticated techniques, particularly related to imaging and molecular biology, has substantially advanced our understanding of the mechanisms controlling appetite and energy intake. This has led to a redefinition of many concepts, including the relative importance of central versus peripheral mechanisms, recognising that the gastrointestinal (GI) tract, particularly gut hormones, plays a critical role. Given the major advance in knowledge in the field, this Special Issue provides a comprehensive overview of the GI mechanisms underlying the regulation of appetite and energy intake, as a series of definitive reviews by international authorities. The reviews address gut-related mechanisms, including nutrient sensing, gut hormones and GI motility, gut-brain communication, including the roles of the vagus and the modulation of reward perception, the roles of diet and the microbiota, as well as the abnormalities associated with eating disorders, specifically obesity and anorexia of ageing, and the beneficial effects of bariatric surgery. The reviews cover both preclinical research and studies in humans, and are complemented by a number of important original papers.
Medicine --- lixisenatide --- intragastric meal retention --- energy intake --- type 2 diabetes --- obesity --- amino acid --- isoleucine --- chronic supplementation --- energy expenditure --- oral glucose tolerance test --- glycaemic control --- gastric emptying breath test --- endocannabinoid --- cannabinoid CB1 receptor --- gut–brain --- intestine --- western diet --- preference --- whey protein --- gastric emptying --- appetite --- lifecourse --- gut hormones --- hunger --- protein --- TAS2R5 --- TAS2R39 --- TAS2R14 --- agonist --- food intake --- GLP1 --- CCK --- PYY --- miniature pig --- pig model --- functional brain imaging --- molecular imaging --- vagal afferents --- single fiber recording --- insulin resistance --- GLP-1r --- gastric barostat --- scintigraphy --- meal ingestion --- postprandial responses --- hedonic sensations --- homeostatic sensations --- abdominal wall activity --- abdominal distension --- taste --- fat --- carbohydrate --- bariatric surgery --- GLP-1 --- ghrelin --- Roux-en-Y gastric bypass --- gastric band --- sleeve gastrectomy --- circadian --- gastrointestinal tract --- enteroendocrine cells --- chemosensory --- GIP --- nutrients --- hormones --- food ingestion --- digestion --- satiety --- digestive well-being --- functional gastrointestinal disorders --- postprandial symptoms --- brainstem --- vagus --- feeding --- gastrointestinal --- cue reactivity --- meal anticipation --- motivation --- nutrient preference --- flavor --- aversion --- bile acids --- TGR-5 --- FXR --- gastrointestinal hormones --- body weight --- gastric accommodation --- satiation --- CB1 receptor --- gut-brain --- reward --- aging --- whey --- anorexia --- supplements --- sarcopenia --- nutrient sensing --- enteroendocrine cells (EECs) --- appetite regulation --- G-protein coupled receptors (GPCRs) --- bitter substances --- gastric motor function --- postprandial blood glucose --- preclinical studies --- human studies --- texture --- oro-sensory exposure --- sensory science --- cephalic responses --- brain areas --- brain stem --- weight management --- intestinal brake --- duodenal jejunal and ileal brake --- tastants --- circadian clock --- gastric bypass surgery --- microbiome --- hypothalamus --- n/a
Choose an application
The prevalence of obesity and its comorbidities, particularly type 2 diabetes, cardiovascular and hepatic disease and certain cancers, continues to rise worldwide. Paradoxically, despite an increasingly obesogenic environment, particularly in Western societies, undernutrition is also extremely common. The application of novel, sophisticated techniques, particularly related to imaging and molecular biology, has substantially advanced our understanding of the mechanisms controlling appetite and energy intake. This has led to a redefinition of many concepts, including the relative importance of central versus peripheral mechanisms, recognising that the gastrointestinal (GI) tract, particularly gut hormones, plays a critical role. Given the major advance in knowledge in the field, this Special Issue provides a comprehensive overview of the GI mechanisms underlying the regulation of appetite and energy intake, as a series of definitive reviews by international authorities. The reviews address gut-related mechanisms, including nutrient sensing, gut hormones and GI motility, gut-brain communication, including the roles of the vagus and the modulation of reward perception, the roles of diet and the microbiota, as well as the abnormalities associated with eating disorders, specifically obesity and anorexia of ageing, and the beneficial effects of bariatric surgery. The reviews cover both preclinical research and studies in humans, and are complemented by a number of important original papers.
lixisenatide --- intragastric meal retention --- energy intake --- type 2 diabetes --- obesity --- amino acid --- isoleucine --- chronic supplementation --- energy expenditure --- oral glucose tolerance test --- glycaemic control --- gastric emptying breath test --- endocannabinoid --- cannabinoid CB1 receptor --- gut–brain --- intestine --- western diet --- preference --- whey protein --- gastric emptying --- appetite --- lifecourse --- gut hormones --- hunger --- protein --- TAS2R5 --- TAS2R39 --- TAS2R14 --- agonist --- food intake --- GLP1 --- CCK --- PYY --- miniature pig --- pig model --- functional brain imaging --- molecular imaging --- vagal afferents --- single fiber recording --- insulin resistance --- GLP-1r --- gastric barostat --- scintigraphy --- meal ingestion --- postprandial responses --- hedonic sensations --- homeostatic sensations --- abdominal wall activity --- abdominal distension --- taste --- fat --- carbohydrate --- bariatric surgery --- GLP-1 --- ghrelin --- Roux-en-Y gastric bypass --- gastric band --- sleeve gastrectomy --- circadian --- gastrointestinal tract --- enteroendocrine cells --- chemosensory --- GIP --- nutrients --- hormones --- food ingestion --- digestion --- satiety --- digestive well-being --- functional gastrointestinal disorders --- postprandial symptoms --- brainstem --- vagus --- feeding --- gastrointestinal --- cue reactivity --- meal anticipation --- motivation --- nutrient preference --- flavor --- aversion --- bile acids --- TGR-5 --- FXR --- gastrointestinal hormones --- body weight --- gastric accommodation --- satiation --- CB1 receptor --- gut-brain --- reward --- aging --- whey --- anorexia --- supplements --- sarcopenia --- nutrient sensing --- enteroendocrine cells (EECs) --- appetite regulation --- G-protein coupled receptors (GPCRs) --- bitter substances --- gastric motor function --- postprandial blood glucose --- preclinical studies --- human studies --- texture --- oro-sensory exposure --- sensory science --- cephalic responses --- brain areas --- brain stem --- weight management --- intestinal brake --- duodenal jejunal and ileal brake --- tastants --- circadian clock --- gastric bypass surgery --- microbiome --- hypothalamus --- n/a
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