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Adrenergically stimulated fat utilization and ageing
E.E. Blaak
*
*
Corresponding author for this work
NUTRIM - Institute of Nutrition and Translational Research in Metabolism
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Keyphrases
Aging
100%
Fatty Acids
100%
Fat Utilization
100%
Skeletal muscle
66%
Fat Oxidation
66%
During Exercise
66%
Fatty Acid Transport
66%
Lipolysis
66%
β-adrenergic Stimulation
66%
Cardiovascular Disease
33%
Type 2 Diabetes Mellitus (T2DM)
33%
Adiposity
33%
Per Se
33%
Insulin Resistance
33%
Chronic Disease Prevalence
33%
Age-related
33%
Older Subjects
33%
Middle-aged
33%
Aging Process
33%
Physical Activity Level
33%
Age-related Changes
33%
Age-related Decline
33%
Mitochondria
33%
Fatty Acid Uptake
33%
Obesity Type
33%
Fatty Acid Oxidation
33%
Body Fat Distribution
33%
Sympathetic Nervous System
33%
Fat Level
33%
β-adrenoceptor
33%
Glycolytic Flux
33%
Fat Metabolism
33%
Hormone-sensitive Lipase
33%
Oxidative Enzymes
33%
Skeletal muscle Fat
33%
Agonist Affinity
33%
Intramuscular Fatty Acids
33%
Medicine and Dentistry
Fatty Acid
100%
Fatty Acid Transport
100%
Skeletal Muscle
100%
Beta Adrenergic Stimulation
66%
Fatty Acid Oxidation
33%
Prevalence
33%
Sympathetic Nervous System
33%
Lipid Metabolism
33%
Insulin Resistance
33%
Physical Activity
33%
Maturity Onset Diabetes of the Young
33%
Mitochondrion
33%
Lipolysis
33%
Chronic Disease
33%
Cardiovascular Disease
33%
Receptor
33%
Body Fat Distribution
33%
Middle Age
33%
Beta Adrenergic Receptor
33%
Hormone Sensitive Lipase
33%
INIS
fats
100%
aging
100%
fatty acids
85%
oxidation
57%
levels
42%
muscles
42%
stimulation
28%
disturbances
28%
transport
28%
exercise
28%
adrenergics
28%
diseases
14%
cardiovascular diseases
14%
availability
14%
receptors
14%
diabetes mellitus
14%
metabolism
14%
mitochondria
14%
uptake
14%
enzymes
14%
affinity
14%
distribution
14%
capacity
14%
obesity
14%
insulin
14%
fuels
14%
hormones
14%
lipase
14%
sympathetic nervous system
14%
Biochemistry, Genetics and Molecular Biology
Skeletal Muscle
100%
Fatty Acid Transport
100%
Beta Adrenergic Stimulation
66%
Beta Oxidation
33%
Prevalence
33%
Physical Activity
33%
Insulin Resistance
33%
Agonist
33%
Lipid Metabolism
33%
Mitochondrion
33%
Lipolysis
33%
Enzyme
33%
Hormone-Sensitive Lipase
33%
Body Fat Distribution
33%
Adrenergic Receptor
33%
Nursing and Health Professions
Fatty Acid
100%
Beta Adrenergic Stimulation
33%
Prevalence
16%
Cardiovascular Disease
16%
Insulin Resistance
16%
Non Insulin Dependent Diabetes Mellitus
16%
Chronic Disease
16%
Body Fat Distribution
16%
Beta Adrenergic Receptor
16%
Receptor
16%
Hormone Sensitive Lipase
16%
Pharmacology, Toxicology and Pharmaceutical Science
Fatty Acid
100%
Prevalence
16%
Receptor
16%
Insulin Resistance
16%
Hormone Sensitive Lipase
16%
Chronic Disease
16%
Beta Adrenergic Receptor
16%
Cardiovascular Disease
16%
Non Insulin Dependent Diabetes Mellitus
16%