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Cardiovascular Endocrinology and Metabolism: Theory and Practice of Cardiometabolic Medicine discusses the close intersection between metabolic disorders and cardiovascular disease, covering the basic science and pathophysiology of disease and the latest research in pharmacological approaches and translational therapeutic options. This book is a valuable resource for the vascular and endocrinology clinical and research communities in need of knowledge and potential outcomes. The global increase in the prevalence of cardiometabolic disorders, and the introduction of therapeutic options for treating metabolic disease that also lower cardiovascular risk, is bringing endocrinologists and cardiologists together in a shared clinical experience. Discusses the intersection between metabolic disorders and cardiovascular diseases Provides a comprehensive understanding of the relevant pathophysiology of diseases as a basis for the evidence-based management of cardiometabolic disorders Offers a comprehensive reference, ranging from basic science and pathophysiology to clinical diagnostics and management.
Cardiovascular system --- Diseases --- Prevention. --- Mortality. --- Cardiometabolic Risk Factors --- Metabolic Syndrome
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Metabolism --- Metabolic Syndrome X. --- Disorders --- Disorders. --- Disorders of metabolism --- Metabolic diseases --- Metabolic disorders --- Metabolism, Disorders of --- Dysmetabolic Syndrome X --- Metabolic Cardiovascular Syndrome --- Metabolic X Syndrome --- Syndrome X, Insulin Resistance --- Syndrome X, Metabolic --- Insulin Resistance Syndrome X --- Reaven Syndrome X --- Cardiovascular Syndrome, Metabolic --- Cardiovascular Syndromes, Metabolic --- Syndrome X, Dysmetabolic --- Syndrome X, Reaven --- Syndrome, Metabolic Cardiovascular --- Syndrome, Metabolic X --- X Syndrome, Metabolic --- Anabolism --- Catabolism --- Metabolism, Primary --- Primary metabolism --- Diseases --- Metabolic Syndrome X --- Metabolic Syndromes --- Syndrome, Metabolic --- Syndromes, Metabolic --- Diabetes Mellitus, Type 2 --- Microvascular Angina --- Biochemistry --- Physiology --- Metabolic Syndrome. --- Cardiometabolic Syndrome --- Cardiometabolic Syndromes --- Syndrome, Cardiometabolic --- Syndromes, Cardiometabolic --- Cardiometabolic Risk Factors
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Diabetes --- Metabolic syndrome --- Diabetes Mellitus --- Metabolic Syndrome X. --- Metabolic syndrome. --- Pathophysiology --- physiopathology. --- Pathophysiology. --- Cardiovascular syndrome, Metabolic --- Dysmetabolic syndrome X --- Insulin resistance syndrome --- Metabolic cardiovascular syndrome --- Metabolic syndrome X --- Dysmetabolic Syndrome X --- Metabolic Cardiovascular Syndrome --- Metabolic X Syndrome --- Syndrome X, Insulin Resistance --- Syndrome X, Metabolic --- Insulin Resistance Syndrome X --- Reaven Syndrome X --- Cardiovascular Syndrome, Metabolic --- Cardiovascular Syndromes, Metabolic --- Syndrome X, Dysmetabolic --- Syndrome X, Reaven --- Syndrome, Metabolic Cardiovascular --- Syndrome, Metabolic X --- X Syndrome, Metabolic --- Brittle diabetes --- Diabetes mellitus --- IDDM (Disease) --- Insulin-dependent diabetes --- Ketosis prone diabetes --- Type 1 diabetes --- Metabolic Syndrome. --- Diabetes. --- Metabolism. --- diabetes --- metabolic syndrome --- Insulin resistance --- Metabolism --- Syndromes --- Carbohydrate intolerance --- Endocrine glands --- Diabetic acidosis --- Glycosylated hemoglobin --- Metabolic Syndrome X --- Metabolic Syndromes --- Syndrome, Metabolic --- Syndromes, Metabolic --- Diabetes Mellitus, Type 2 --- Microvascular Angina --- Disorders --- Diseases --- Pathology of the metabolism --- Cardiometabolic Syndrome --- Cardiometabolic Syndromes --- Syndrome, Cardiometabolic --- Syndromes, Cardiometabolic --- Cardiometabolic Risk Factors
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The metabolic syndrome is characterised by the presence in a particular individual of a number of metabolic risk factors that combine to put that patient at an increased risk of coronary artery disease, stroke, and diabetes. In this ground-breaking work, leading authorities in the field explain current thinking on how these risk factors may be managed, singly and in combination, enabling clinicians to formulate treatment plans that achieve better health outcomes for their patients.
Metabolic syndrome -- Chemotherapy. --- Metabolic syndrome -- Pathophysiology. --- Metabolic syndrome -- Treatment. --- Metabolic Syndrome X --- Insulin Resistance --- Metabolic Diseases --- Hyperinsulinism --- Nutritional and Metabolic Diseases --- Diseases --- Glucose Metabolism Disorders --- Glucose Metabolic Disorder --- Glucose Metabolic Disorders --- Glucose Metabolism Disorder --- Disorder, Glucose Metabolic --- Disorder, Glucose Metabolism --- Disorders, Glucose Metabolic --- Disorders, Glucose Metabolism --- Metabolic Disorder, Glucose --- Metabolic Disorders, Glucose --- Metabolism Disorder, Glucose --- Metabolism Disorders, Glucose --- Compensatory Hyperinsulinemia --- Endogenous Hyperinsulinism --- Exogenous Hyperinsulinism --- Hyperinsulinemia --- Hyperinsulinemia, Compensatory --- Hyperinsulinism, Endogenous --- Hyperinsulinism, Exogenous --- Diseases, Metabolic --- Thesaurismosis --- Disease, Metabolic --- Metabolic Disease --- Thesaurismoses --- Insulin Sensitivity --- Resistance, Insulin --- Sensitivity, Insulin --- Dysmetabolic Syndrome X --- Metabolic Cardiovascular Syndrome --- Metabolic X Syndrome --- Syndrome X, Insulin Resistance --- Syndrome X, Metabolic --- Insulin Resistance Syndrome X --- Reaven Syndrome X --- Cardiovascular Syndrome, Metabolic --- Cardiovascular Syndromes, Metabolic --- Syndrome X, Dysmetabolic --- Syndrome X, Reaven --- Syndrome, Metabolic Cardiovascular --- Syndrome, Metabolic X --- X Syndrome, Metabolic --- Nutritional Physiological Phenomena --- Insulin --- Pancreatic Diseases --- Donohue Syndrome --- Metabolic Syndromes --- Syndrome, Metabolic --- Syndromes, Metabolic --- Diabetes Mellitus, Type 2 --- Microvascular Angina --- Cardiometabolic Syndrome --- Cardiometabolic Syndromes --- Syndrome, Cardiometabolic --- Syndromes, Cardiometabolic --- Cardiometabolic Risk Factors
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metabolic syndrome --- translational research --- prevention treatment and diagnosis --- in vitro and in vivo models --- personalized --- population-based --- Metabolic syndrome --- Metabolic syndrome. --- Metabolic Syndrome --- Syndrome métabolique --- Syndrome métabolique. --- Cardiovascular syndrome, Metabolic --- Dysmetabolic syndrome X --- Insulin resistance syndrome --- Metabolic cardiovascular syndrome --- Metabolic syndrome X --- Insulin resistance --- Metabolism --- Syndromes --- Dysmetabolic Syndrome X --- Metabolic Cardiovascular Syndrome --- Metabolic X Syndrome --- Syndrome X, Insulin Resistance --- Syndrome X, Metabolic --- Cardiometabolic Syndrome --- Insulin Resistance Syndrome X --- Metabolic Syndrome X --- Reaven Syndrome X --- Cardiometabolic Syndromes --- Cardiovascular Syndrome, Metabolic --- Cardiovascular Syndromes, Metabolic --- Metabolic Syndromes --- Syndrome X, Dysmetabolic --- Syndrome X, Reaven --- Syndrome, Cardiometabolic --- Syndrome, Metabolic --- Syndrome, Metabolic Cardiovascular --- Syndrome, Metabolic X --- Syndromes, Cardiometabolic --- Syndromes, Metabolic --- X Syndrome, Metabolic --- Cardiometabolic Risk Factors --- Diabetes Mellitus, Type 2 --- Microvascular Angina --- Disorders
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Health is defined as “the state of the organism when it functions optimally without evidence of disease”. Surprisingly, the words “microbes” or “microorganism” are missing in this definition. The regulation of gut microbiota is mediated by an enormous quantity of aspects, such as microbiological factors, host characteristics, diet patterns, and environmental variables. Some protective, structural, and metabolic functions have been reported for gut microbiota, and these functions are related to the regulation of homeostasis and host health. Host defense against pathogens is, in part, mediated through gut microbiota action and requires intimate interpretation of the current microenvironment and discrimination between commensal and occasional bacteria. The present Special Issue provides a summary of the progress on the topic of intestinal microbiota and its important role in human health in different populations. This Special Issue will be of great interest from a clinical and public health perspective. Nevertheless, more studies with more samples and comparable methods are necessary to understand the actual function of intestinal microbiota in disease development and health maintenance.
Research & information: general --- Biology, life sciences --- sperm quality --- probiotics --- zebrafish --- motility --- behavior --- intestinal microbiota --- intestinal Bacteroides --- cardiorespiratory fitness --- trunk muscle training --- aerobic exercise training --- brisk walking --- nutrients --- gut microbiota --- nutrition --- habitual diets --- Western diet --- obesity --- cardiometabolic risk factors --- chronic health conditions --- gastrointestinal disorders --- prebiotics and probiotics --- metabolic syndrome --- gastrointestinal microbiome --- Lactobacillus reuteri V3401 --- sugar alcohol --- prebiotic --- bowel function --- immune function --- respiratory tract infections --- otitis media --- sinusitis --- weight management --- satiety --- bone health --- AMP-activated protein kinase --- butyrate --- developmental origins of health and disease (DOHaD) --- high fat diet --- hypertension --- nutrient-sensing signals --- propionate --- short chain fatty acids --- kefir --- autism spectrum disorders --- oral microbiota --- dysbiosis --- co-occurring conditions --- allergy --- abdominal pain --- biomarker discovery --- anorexia --- food restriction --- ClpB --- microbiota --- Enterobacteriaceae --- inulin --- circadian rhythm --- feeding timing --- choline --- trimethylamine --- trimethylamine n-oxide --- 16S rRNA gene profiling --- qPCR --- linear mixed models --- soy protein --- lipid metabolism --- circadian --- chrono-nutrition --- microbiome --- pregnancy --- fetus --- placenta --- newborn --- infancy --- critical illness --- sepsis --- lipid metabolome --- amlodipine --- corticosterone --- ACTH --- gut bacteriome --- ischemia-reperfusion injury --- nutritional status --- supplemented nutrition --- partial hepatectomy --- liver transplantation --- vaginal microbiome --- bacterial communities --- vaginal dysbiosis --- bacterial vaginosis --- risk factors --- hormone replacement therapy --- cardiovascular diseases --- atherosclerosis --- prebiotics --- alanine aminotransferase --- antibiotic --- Optifast --- gut microbiome --- metronidazole --- nonnutritive sweeteners --- sweetening agents --- sperm quality --- probiotics --- zebrafish --- motility --- behavior --- intestinal microbiota --- intestinal Bacteroides --- cardiorespiratory fitness --- trunk muscle training --- aerobic exercise training --- brisk walking --- nutrients --- gut microbiota --- nutrition --- habitual diets --- Western diet --- obesity --- cardiometabolic risk factors --- chronic health conditions --- gastrointestinal disorders --- prebiotics and probiotics --- metabolic syndrome --- gastrointestinal microbiome --- Lactobacillus reuteri V3401 --- sugar alcohol --- prebiotic --- bowel function --- immune function --- respiratory tract infections --- otitis media --- sinusitis --- weight management --- satiety --- bone health --- AMP-activated protein kinase --- butyrate --- developmental origins of health and disease (DOHaD) --- high fat diet --- hypertension --- nutrient-sensing signals --- propionate --- short chain fatty acids --- kefir --- autism spectrum disorders --- oral microbiota --- dysbiosis --- co-occurring conditions --- allergy --- abdominal pain --- biomarker discovery --- anorexia --- food restriction --- ClpB --- microbiota --- Enterobacteriaceae --- inulin --- circadian rhythm --- feeding timing --- choline --- trimethylamine --- trimethylamine n-oxide --- 16S rRNA gene profiling --- qPCR --- linear mixed models --- soy protein --- lipid metabolism --- circadian --- chrono-nutrition --- microbiome --- pregnancy --- fetus --- placenta --- newborn --- infancy --- critical illness --- sepsis --- lipid metabolome --- amlodipine --- corticosterone --- ACTH --- gut bacteriome --- ischemia-reperfusion injury --- nutritional status --- supplemented nutrition --- partial hepatectomy --- liver transplantation --- vaginal microbiome --- bacterial communities --- vaginal dysbiosis --- bacterial vaginosis --- risk factors --- hormone replacement therapy --- cardiovascular diseases --- atherosclerosis --- prebiotics --- alanine aminotransferase --- antibiotic --- Optifast --- gut microbiome --- metronidazole --- nonnutritive sweeteners --- sweetening agents
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Health is defined as “the state of the organism when it functions optimally without evidence of disease”. Surprisingly, the words “microbes” or “microorganism” are missing in this definition. The regulation of gut microbiota is mediated by an enormous quantity of aspects, such as microbiological factors, host characteristics, diet patterns, and environmental variables. Some protective, structural, and metabolic functions have been reported for gut microbiota, and these functions are related to the regulation of homeostasis and host health. Host defense against pathogens is, in part, mediated through gut microbiota action and requires intimate interpretation of the current microenvironment and discrimination between commensal and occasional bacteria. The present Special Issue provides a summary of the progress on the topic of intestinal microbiota and its important role in human health in different populations. This Special Issue will be of great interest from a clinical and public health perspective. Nevertheless, more studies with more samples and comparable methods are necessary to understand the actual function of intestinal microbiota in disease development and health maintenance.
sperm quality --- probiotics --- zebrafish --- motility --- behavior --- intestinal microbiota --- intestinal Bacteroides --- cardiorespiratory fitness --- trunk muscle training --- aerobic exercise training --- brisk walking --- nutrients --- gut microbiota --- nutrition --- habitual diets --- Western diet --- obesity --- cardiometabolic risk factors --- chronic health conditions --- gastrointestinal disorders --- prebiotics and probiotics --- metabolic syndrome --- gastrointestinal microbiome --- Lactobacillus reuteri V3401 --- sugar alcohol --- prebiotic --- bowel function --- immune function --- respiratory tract infections --- otitis media --- sinusitis --- weight management --- satiety --- bone health --- AMP-activated protein kinase --- butyrate --- developmental origins of health and disease (DOHaD) --- high fat diet --- hypertension --- nutrient-sensing signals --- propionate --- short chain fatty acids --- kefir --- autism spectrum disorders --- oral microbiota --- dysbiosis --- co-occurring conditions --- allergy --- abdominal pain --- biomarker discovery --- anorexia --- food restriction --- ClpB --- microbiota --- Enterobacteriaceae --- inulin --- circadian rhythm --- feeding timing --- choline --- trimethylamine --- trimethylamine n-oxide --- 16S rRNA gene profiling --- qPCR --- linear mixed models --- soy protein --- lipid metabolism --- circadian --- chrono-nutrition --- microbiome --- pregnancy --- fetus --- placenta --- newborn --- infancy --- critical illness --- sepsis --- lipid metabolome --- amlodipine --- corticosterone --- ACTH --- gut bacteriome --- ischemia-reperfusion injury --- nutritional status --- supplemented nutrition --- partial hepatectomy --- liver transplantation --- vaginal microbiome --- bacterial communities --- vaginal dysbiosis --- bacterial vaginosis --- risk factors --- hormone replacement therapy --- cardiovascular diseases --- atherosclerosis --- prebiotics --- alanine aminotransferase --- antibiotic --- Optifast --- gut microbiome --- metronidazole --- nonnutritive sweeteners --- sweetening agents --- n/a
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