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The sense of hearing is vulnerable to environmental challenges, such as exposure to noise. More than 1.5 billion people experience some decline in hearing ability during their lifetime, of whom at least 430 million will be affected by disabling hearing loss. If not identified and addressed in a timely way, hearing loss can severely reduce the quality of life at various stages. Some causes of hearing loss can be prevented, for example from occupational or leisure noise. The World Health Organization estimates that more than 1 billion young people put themselves at risk of permanent hearing loss by listening to loud music over long periods of time. Mitigating such risks through public health action is essential to reduce the impact of hearing loss in the community. The etiology of sensorineural hearing loss is complex and multifactorial, arising from congenital and acquired causes. This book highlights the diverse range of approaches to sensorineural hearing loss, from designing new animal models of age-related hearing loss, to the use of microRNAs as biomarkers of cochlear injury and drug repurposing for the therapy of age-related and noise-induced hearing loss. Further investigation into the underlying molecular mechanisms of sensorineural hearing loss and the integration of the novel drug, cell, and gene therapy strategies into controlled clinical studies will permit significant advances in a field where there are currently many unmet needs.

Medicine --- brain-derived neurotrophic factor --- TrkB --- inner ear --- development --- zebrafish --- mitochondria dysfunction --- reactive oxygen species --- hypoxic --- d-galactose --- high-fat diet --- aging --- hearing loss --- astrocytes --- auditory brainstem --- lateral superior olive --- gap junctions --- voltage-activated calcium channel 1.3 --- otoferlin --- spontaneous activity --- deafness --- circadian dysregulation --- clock genes --- noise-induced hearing loss --- sensory hair cells --- synaptic ribbons --- sensorineural hearing loss --- hyperbaric oxygenation --- adjunctive therapy --- microRNAs --- cochlear nucleus --- inferior colliculus --- neuroplasticity --- noise-induced cochlear injury --- cochlear rescue --- otoprotection --- adenosine A1 receptor --- regulator of G protein signalling 4 --- CCG-4986 --- intratympanic drug delivery --- potassium voltage-gated channel subfamily q member 4 --- potassium --- nonsyndromic hearing loss --- KCNQ4 activator --- age-related hearing loss --- selegiline --- chronic oral treatment --- hearing protection --- mouse model --- n/a

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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 --- n/a

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

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