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Dissertation
Magnetic resonance imaging and phosphorus spectroscopy of the hypertrophied human heart
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Year: 2002 Publisher: Leiden s.n.

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Creatine and creatine phosphate : scientific and clinical perspectives
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ISBN: 0121863409 9786611037086 1281037087 0080530087 9780121863401 9780080530086 Year: 1996 Publisher: San Diego, CA : Academic Press,

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Abstract

Creatine and Creatine Phosphate: Scientific and Clinical Perspectives is an up-to-date summary of both the scientific and medical aspects of creatine and creatine phosphate metabolism and therapy.It covers in detail the basic biochemistry, bioenergetics and biophysics of these agents with particular emphasis on their role on the cardiovascular and muscle systems. Modern in vivo myocardial and skeletal muscle measurements are outlined, and the importance of the molecules in cardiovascular medicine, sport science and cardiac surgery are highlighted.This book is designed for


Book
Creatine Supplementation for Health and Clinical Diseases
Authors: ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

Creatine plays a critical role in cellular metabolism, primarily by binding with phosphate to form phosphocreatine (PCr) as well as shuttling high-energy phosphate compounds in and out of the mitochondria for metabolism. Increasing the dietary availability of creatine increases the tissue and cellular availability of PCr, and thereby enhances the ability to maintain high-energy states during intense exercise. For this reason, creatine monohydrate has been extensively studied as an ergogenic aid for exercise, training, and sport. Limitations in the ability to synthesize creatine and transport and/or store dietary creatine can impair metabolism and is a contributor to several disease states. Additionally, creatine provides an important source of energy during metabolically stressed states, particularly when oxygen availability is limited. Thus, researchers have assessed the role of creatine supplementation on health throughout the lifespan, as well as whether creatine availability may improve disease management and/or therapeutic outcomes. This book provides a comprehensive overview of scientific and medical evidence related to creatine's role in metabolism, health throughout the lifespan, and our current understanding of how creatine can promote brain, heart, vascular and immune health; reduce the severity of musculoskeletal and brain injury; and may provide therapeutic benefits in glucose management and diabetes, cancer therapy, inflammatory bowel disease, and post-viral fatigue.

Keywords

Research & information: general --- Biology, life sciences --- Food & society --- ergogenic aids --- cellular metabolism --- phosphagens --- sarcopenia --- cognition --- diabetes --- creatine synthesis deficiencies --- concussion --- traumatic brain injury --- spinal cord injury --- muscle atrophy --- rehabilitation --- pregnancy --- immunity --- anti-inflammatory --- antioxidant --- anticancer --- creatine --- nutritional supplements --- fertility --- newborn --- development --- brain injury --- post-viral fatigue syndrome --- chronic fatigue syndrome --- GAA --- creatine kinase --- dietary supplements --- exercise --- skeletal muscle --- glycemic control --- type 2 diabetes mellitus --- phosphorylcreatine --- dietary supplement --- ergogenic aid --- youth --- athletes --- osteoporosis --- osteosarcopenia --- frailty --- cachexia --- innate immunity --- adaptive immunity --- inflammation --- macrophage polarization --- cytotoxic T cells --- toll-like receptors --- vascular pathology --- cardiovascular disease --- oxidative stress --- vascular health --- female --- menstrual cycle --- hormones --- exercise performance --- menopause --- mood --- children --- height --- BMI-for-age --- stature-for-age --- growth --- phosphocreatine --- creatine transporter --- supplementation --- treatment --- heart --- heart failure --- ischemia --- myocardial infarction --- anthracycline --- cardiac toxicity --- energy metabolism --- cell survival --- bioinformatics --- systems biology --- cellular allostasis --- dynamic biosensor --- pleiotropic effects of creatine (Cr) supplementation --- inflammatory bowel diseases (IBD) --- ulcerative colitis --- Crohn’s disease --- creatine kinase (CK) --- phosphocreatine (PCr) --- creatine transporter (CrT) --- intestinal epithelial cell protection --- intestinal tissue protection --- creatine perfusion --- organ transplantation --- Adenosine mono-phosphate (AMP) --- activated protein kinase (AMPK) --- liver kinase B1 (LKB1) --- mitochondrial permeability transition pore (mPTP) --- reactive oxygen species (ROS) --- glucose transporter (GLUT) --- T cell antitumor immunity --- metabolic regulator --- cancer immunotherapy --- supplements --- muscle damage --- recovery --- immobilization --- atrophy --- muscular dystrophy --- amyotrophic lateral sclerosis --- Parkinson’s Disease --- cardiopulmonary disease --- mitochondrial cytopathy --- hypertrophy --- athletic performance --- weightlifting --- resistance exercise --- training --- muscular power --- muscular adaptation --- muscle fatigue --- adipose tissue --- muscle strength --- physiological adaptation --- mitochondria --- thermogenesis --- MAP kinase signaling system --- sodium-chloride-dependent neurotransmitter symporters --- signal transduction --- intradialytic creatine supplementation --- hemodialysis --- muscle --- protein energy wasting --- clinical trial --- muscle weakness --- chronic fatigue --- cognitive impairment --- depression --- anemia --- resistance training --- sports nutrition --- strength --- toxicity --- methylation --- hyperhomocysteinemia --- neuromodulation --- MCDA --- mitochondriopathia --- cardiac infarction --- long COVID --- hypoxia --- stroke --- neurodegenerative diseases --- noncommunicable disease --- adenosine 5′-monopnophosphate-activated protein kinase --- anthracyclines --- creatine supplementation --- cardiac signaling --- cardiotoxicity --- doxorubicin --- soy --- vegetarian/vegan diet --- amino acids --- dietary ingredients --- performance --- ergogenic aids --- cellular metabolism --- phosphagens --- sarcopenia --- cognition --- diabetes --- creatine synthesis deficiencies --- concussion --- traumatic brain injury --- spinal cord injury --- muscle atrophy --- rehabilitation --- pregnancy --- immunity --- anti-inflammatory --- antioxidant --- anticancer --- creatine --- nutritional supplements --- fertility --- newborn --- development --- brain injury --- post-viral fatigue syndrome --- chronic fatigue syndrome --- GAA --- creatine kinase --- dietary supplements --- exercise --- skeletal muscle --- glycemic control --- type 2 diabetes mellitus --- phosphorylcreatine --- dietary supplement --- ergogenic aid --- youth --- athletes --- osteoporosis --- osteosarcopenia --- frailty --- cachexia --- innate immunity --- adaptive immunity --- inflammation --- macrophage polarization --- cytotoxic T cells --- toll-like receptors --- vascular pathology --- cardiovascular disease --- oxidative stress --- vascular health --- female --- menstrual cycle --- hormones --- exercise performance --- menopause --- mood --- children --- height --- BMI-for-age --- stature-for-age --- growth --- phosphocreatine --- creatine transporter --- supplementation --- treatment --- heart --- heart failure --- ischemia --- myocardial infarction --- anthracycline --- cardiac toxicity --- energy metabolism --- cell survival --- bioinformatics --- systems biology --- cellular allostasis --- dynamic biosensor --- pleiotropic effects of creatine (Cr) supplementation --- inflammatory bowel diseases (IBD) --- ulcerative colitis --- Crohn’s disease --- creatine kinase (CK) --- phosphocreatine (PCr) --- creatine transporter (CrT) --- intestinal epithelial cell protection --- intestinal tissue protection --- creatine perfusion --- organ transplantation --- Adenosine mono-phosphate (AMP) --- activated protein kinase (AMPK) --- liver kinase B1 (LKB1) --- mitochondrial permeability transition pore (mPTP) --- reactive oxygen species (ROS) --- glucose transporter (GLUT) --- T cell antitumor immunity --- metabolic regulator --- cancer immunotherapy --- supplements --- muscle damage --- recovery --- immobilization --- atrophy --- muscular dystrophy --- amyotrophic lateral sclerosis --- Parkinson’s Disease --- cardiopulmonary disease --- mitochondrial cytopathy --- hypertrophy --- athletic performance --- weightlifting --- resistance exercise --- training --- muscular power --- muscular adaptation --- muscle fatigue --- adipose tissue --- muscle strength --- physiological adaptation --- mitochondria --- thermogenesis --- MAP kinase signaling system --- sodium-chloride-dependent neurotransmitter symporters --- signal transduction --- intradialytic creatine supplementation --- hemodialysis --- muscle --- protein energy wasting --- clinical trial --- muscle weakness --- chronic fatigue --- cognitive impairment --- depression --- anemia --- resistance training --- sports nutrition --- strength --- toxicity --- methylation --- hyperhomocysteinemia --- neuromodulation --- MCDA --- mitochondriopathia --- cardiac infarction --- long COVID --- hypoxia --- stroke --- neurodegenerative diseases --- noncommunicable disease --- adenosine 5′-monopnophosphate-activated protein kinase --- anthracyclines --- creatine supplementation --- cardiac signaling --- cardiotoxicity --- doxorubicin --- soy --- vegetarian/vegan diet --- amino acids --- dietary ingredients --- performance


Book
Creatine Supplementation for Health and Clinical Diseases
Authors: ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

Creatine plays a critical role in cellular metabolism, primarily by binding with phosphate to form phosphocreatine (PCr) as well as shuttling high-energy phosphate compounds in and out of the mitochondria for metabolism. Increasing the dietary availability of creatine increases the tissue and cellular availability of PCr, and thereby enhances the ability to maintain high-energy states during intense exercise. For this reason, creatine monohydrate has been extensively studied as an ergogenic aid for exercise, training, and sport. Limitations in the ability to synthesize creatine and transport and/or store dietary creatine can impair metabolism and is a contributor to several disease states. Additionally, creatine provides an important source of energy during metabolically stressed states, particularly when oxygen availability is limited. Thus, researchers have assessed the role of creatine supplementation on health throughout the lifespan, as well as whether creatine availability may improve disease management and/or therapeutic outcomes. This book provides a comprehensive overview of scientific and medical evidence related to creatine's role in metabolism, health throughout the lifespan, and our current understanding of how creatine can promote brain, heart, vascular and immune health; reduce the severity of musculoskeletal and brain injury; and may provide therapeutic benefits in glucose management and diabetes, cancer therapy, inflammatory bowel disease, and post-viral fatigue.

Keywords

ergogenic aids --- cellular metabolism --- phosphagens --- sarcopenia --- cognition --- diabetes --- creatine synthesis deficiencies --- concussion --- traumatic brain injury --- spinal cord injury --- muscle atrophy --- rehabilitation --- pregnancy --- immunity --- anti-inflammatory --- antioxidant --- anticancer --- creatine --- nutritional supplements --- fertility --- newborn --- development --- brain injury --- post-viral fatigue syndrome --- chronic fatigue syndrome --- GAA --- creatine kinase --- dietary supplements --- exercise --- skeletal muscle --- glycemic control --- type 2 diabetes mellitus --- phosphorylcreatine --- dietary supplement --- ergogenic aid --- youth --- athletes --- osteoporosis --- osteosarcopenia --- frailty --- cachexia --- innate immunity --- adaptive immunity --- inflammation --- macrophage polarization --- cytotoxic T cells --- toll-like receptors --- vascular pathology --- cardiovascular disease --- oxidative stress --- vascular health --- female --- menstrual cycle --- hormones --- exercise performance --- menopause --- mood --- children --- height --- BMI-for-age --- stature-for-age --- growth --- phosphocreatine --- creatine transporter --- supplementation --- treatment --- heart --- heart failure --- ischemia --- myocardial infarction --- anthracycline --- cardiac toxicity --- energy metabolism --- cell survival --- bioinformatics --- systems biology --- cellular allostasis --- dynamic biosensor --- pleiotropic effects of creatine (Cr) supplementation --- inflammatory bowel diseases (IBD) --- ulcerative colitis --- Crohn’s disease --- creatine kinase (CK) --- phosphocreatine (PCr) --- creatine transporter (CrT) --- intestinal epithelial cell protection --- intestinal tissue protection --- creatine perfusion --- organ transplantation --- Adenosine mono-phosphate (AMP) --- activated protein kinase (AMPK) --- liver kinase B1 (LKB1) --- mitochondrial permeability transition pore (mPTP) --- reactive oxygen species (ROS) --- glucose transporter (GLUT) --- T cell antitumor immunity --- metabolic regulator --- cancer immunotherapy --- supplements --- muscle damage --- recovery --- immobilization --- atrophy --- muscular dystrophy --- amyotrophic lateral sclerosis --- Parkinson’s Disease --- cardiopulmonary disease --- mitochondrial cytopathy --- hypertrophy --- athletic performance --- weightlifting --- resistance exercise --- training --- muscular power --- muscular adaptation --- muscle fatigue --- adipose tissue --- muscle strength --- physiological adaptation --- mitochondria --- thermogenesis --- MAP kinase signaling system --- sodium-chloride-dependent neurotransmitter symporters --- signal transduction --- intradialytic creatine supplementation --- hemodialysis --- muscle --- protein energy wasting --- clinical trial --- muscle weakness --- chronic fatigue --- cognitive impairment --- depression --- anemia --- resistance training --- sports nutrition --- strength --- toxicity --- methylation --- hyperhomocysteinemia --- neuromodulation --- MCDA --- mitochondriopathia --- cardiac infarction --- long COVID --- hypoxia --- stroke --- neurodegenerative diseases --- noncommunicable disease --- adenosine 5′-monopnophosphate-activated protein kinase --- anthracyclines --- creatine supplementation --- cardiac signaling --- cardiotoxicity --- doxorubicin --- soy --- vegetarian/vegan diet --- amino acids --- dietary ingredients --- performance

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