Metabolic and Hormonal Response to Physical Exercise during Beta1-Selective and Non-Selective Beta-Blockade

M. Uusitupa; O. Siitonen; M. Härkönen; A. Gordin; A. Aro; K. Hersio; G. Johansson; T. Korhonen; R. Rauramaa

doi:10.1055/s-2007-1019087

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Horm Metab Res 1982; 14(11): 583-589
DOI: 10.1055/s-2007-1019087

Metabolic and Hormonal Response to Physical Exercise during Beta₁-Selective and Non-Selective Beta-Blockade

M. Uusitupa¹ , O. Siitonen¹ , M. Härkönen² , A. Gordin³ , A. Aro¹ , K. Hersio⁴ , G. Johansson⁵ , T. Korhonen¹ , R. Rauramaa⁶

¹Department of Medicine, University of Kuopio, Finland
²Department of Clinical Chemistry, University of Helsinki, Finland
³The Endocine Research Unit, University of Helsinki, Finland
⁴Department of Clinical Chemistry, University of Kuopio, Finland
⁵Department of Physiology, University of Helsinki, Finland
⁶Department of Physiology, University of Kuopio, Finland

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Publication History

1981

1982

Publication Date:
14 March 2008 (online)

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Summary

The effects of a beta₁-selective (metoprolol, 150 mg per day) and a non-selective beta-blocking agent (propranolol, 120 mg per day) on metabolic and hormonal responses to physical exercise (a 30 min bicycle ergometer test) were investigated against placebo in seven healthy male volunteers with a double blind cross-over design.

The blood glucose level remained unchanged during placebo, it tended to increase during metoprolol, whereas it decreased during propranolol. Both metoprolol and propranolol counteracted the exercise-induced increase in plasma free fatty acids and caused a slight decrease in muscle glycogenolysis. The increase in blood lactate concentration during exercise was not influenced by beta-blockade. The secretion of glucagon and cortisol was not modified significantly by beta-blockade, whereas the growth hormone response to exercise was promoted equally by both beta-blocking agents.

It has been assumed previously that, during treatment with beta-blocking agents, diminished hepatic gluconeogenesis, caused by the lack of lactate or free fatty acids, may result in a decline in blood glucose levels. The present results indicate that an inhibition of beta₂-mediated hepatic glycogenolysis by propranolol may also influence blood glucose homeostasis during exercise.

Key-Words:

Beta₁-Selective Beta Blockade - Non-Selective Beta-Blockade - Physical Exercise - Blood Glucose - Blood Lactate - Muscle Glycogen - Plasma Free Fatty Acids - Growth Hormone - Glucagon - Cortisol - Insulin - Serum Potassium - Physical Fitness

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