Latest papers

Acute supplementation with keto analogues and amino acids in rats during resistance exercise.

Aerobic training reverses high-fat diet-induced pro-inflammatory signalling in rat skeletal muscle.

Ground reaction force and kinematic analysis of limb loading on two different beach sand tracks in harness trotters. LID - 10.1111/j.2042-3306.2010.00202.x [doi]

Investigation of the incidence and type of injuries associated with high-speed treadmill exercise testing. LID - 10.1111/j.2042-3306.2010.00234.x [doi]

Disrupted sleep and delayed recovery from chronic peripheral neuropathy are distinct phenotypes in a rat model of metabolic syndrome.

Epinephrine-mediated regulation of PDK4 mRNA in rat adipose tissue.

Cardiovascular effects of exercise training: molecular mechanisms.

Effect of treadmill exercise on Purkinje cell loss and astrocytic reaction in the cerebellum after traumatic brain injury.

Proteomic analysis reveals late exercise effects on cardiac remodeling following myocardial infarction.

Alcohol-induced deterioration in primary antioxidant and glutathione family enzymes reversed by exercise training in the liver of old rats.

Aerobic capacity muscles its way into the energy balance equation.

IL-6 deficiency in mice neither impairs induction of metabolic genes in the liver nor affects blood glucose levels during fasting and moderately intense exercise.

IL-6 deficiency in mice neither impairs induction of metabolic genes in the liver nor affects blood glucose levels during fasting and moderately intense exercise.

IL-6 deficiency in mice neither impairs induction of metabolic genes in the liver nor affects blood glucose levels during fasting and moderately intense exercise.

IL-6 deficiency in mice neither impairs induction of metabolic genes in the liver nor affects blood glucose levels during fasting and moderately intense exercise.

IL-6 deficiency in mice neither impairs induction of metabolic genes in the liver nor affects blood glucose levels during fasting and moderately intense exercise.

IL-6 deficiency in mice neither impairs induction of metabolic genes in the liver nor affects blood glucose levels during fasting and moderately intense exercise.

IL-6 deficiency in mice neither impairs induction of metabolic genes in the liver nor affects blood glucose levels during fasting and moderately intense exercise.

IL-6 deficiency in mice neither impairs induction of metabolic genes in the liver nor affects blood glucose levels during fasting and moderately intense exercise.

IL-6 deficiency in mice neither impairs induction of metabolic genes in the liver nor affects blood glucose levels during fasting and moderately intense exercise.