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European journal of applied physiology
Jan, 2009;105 (2): 207-13.

Salbutamol intake and substrate oxidation during submaximal exercise.

A Arlettaz, B Le Panse, H Portier, A-M Lecoq, R Thomasson, J De Ceaurriz, K Collomp
Author Information
  1. A Arlettaz: Laboratoire Activité Motrice et Adaptation Psychophysiologique, UFR STAPS, Université d'Orléans, 2, Allée du Château, BP6237, 45062 Orléans Cedex 2, France.
PMID: 18925413 DOI: 10.1007/s00421-008-0891-7

Abstract

In order to test the hypothesis that salbutamol would change substrate oxidation during submaximal exercise, eight recreationally trained men twice performed 1 h at 60% VO(2) peak after ingestion of placebo or 4 mg of salbutamol. Gas exchange was monitored and blood samples were collected during exercise for GH, ACTH, insulin, and blood glucose and lactate determination. With salbutamol versus placebo, there was no significant difference in total energy expenditure and substrate oxidation, but the substrate oxidation balance was significantly modified after 40 min of exercise. ACTH was significantly decreased with salbutamol during the last 10 min of exercise, whereas no difference was found between the two treatments in the other hormonal and metabolic parameters. The theory that the ergogenic effect of salbutamol results from a change in substrate oxidation has little support during relatively short term endurance exercise, but it is conceivable that longer exercise duration can generate positive findings.

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MeSH Term

Adrenocorticotropic Hormone
Albuterol
Blood Glucose
Exercise
Growth Hormone
Humans
Insulin
Lactic Acid
Male
Oxidation-Reduction
Physical Endurance
Physical Exertion
Time Factors
Young Adult

Chemicals

Blood Glucose
Insulin
Lactic Acid
Adrenocorticotropic Hormone
Growth Hormone
Albuterol
Journal Article

Word Cloud

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