Objective: To investigate whether changes in body energy balance induced by long-term high-fat feeding in adult rats could be associated with modifications in energetic behaviour and oxidative stress of skeletal muscle subsarcolemmal (SS) and intermyofibrillar (IMF) mitochondrial populations.Design: Adult rats were fed low-fat or high-fat diet for 7 weeks.Measurements: Body energy balance and composition analysis together with plasma insulin and glucose level determination in the whole animal. Oxidative capacity, basal and induced proton leaks as well as aconitase and superoxide dismutase activities in SS and IMF mitochondria from skeletal muscle.Results: High-fat fed rats exhibit increased body lipid content, as well as hyperinsulinemia, h...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
Metabolic syndrome components, including obesity, dyslipidemia and impaired glucose homeostasis, bec...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
Metabolic syndrome components, including obesity, dyslipidemia and impaired glucose homeostasis, bec...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
Objective: To investigate whether changes in body energy balance induced by long-term high-fat feedi...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
To investigate whether young rats respond to high-fat feeding through changes in energy efficiency a...
Metabolic syndrome components, including obesity, dyslipidemia and impaired glucose homeostasis, bec...
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