R J Godfrey1, G P Whyte, J Buckley, R Quinlivan. 1. Centre for Sports Medicine and Human Performance, School of Sport and Education, Brunel University, Uxbridge, UB8 3PH, United Kingdom. richard.godfrey@brunel.ac.uk
Abstract
PURPOSE: Increased blood lactate concentration has been suggested as a primary stimulus for the exercise-induced growth hormone response (EIGR). Patients with McArdle disease are unable to produce lactate in response to exercise and thus offer a unique model to assess the role of lactate in the EIGR. Accordingly, McArdle's patients were exercised to test the hypothesis that lactate is a major stimulus of the EIGR. METHODS: 11 patients with McArdle disease (3 male, 8 female; age: 35.5 (SD 13.9) years, height: 166 (8) cm, body mass: 75.2 (13.1) kg) were recruited for the study. The patients walked initially at 0.42 m/s, increasing by 0.14 m/s per 3 min stage. Exercise was terminated when participants completed 3 minutes at 1.80 m/s or when a Borg CR10 pain scale rating of "4" was reached. Stages were separated by 60 s for capillary blood sampling for analysis of hGH and blood lactate concentration. RESULTS: McArdle's patients' blood lactate levels remained at resting levels (0.3-1.2 mmol/l) as exercise intensity increased. Nine out of 11 participants failed to demonstrate an EIGR obtaining hGH values below the clinical definition of a response (>3 microg/l). CONCLUSION: The absence of an EIGR in nine out of 11 participants suggests that lactate could play a major role in the EIGR in humans.
PURPOSE: Increased blood lactate concentration has been suggested as a primary stimulus for the exercise-induced growth hormone response (EIGR). Patients with McArdle disease are unable to produce lactate in response to exercise and thus offer a unique model to assess the role of lactate in the EIGR. Accordingly, McArdle'spatients were exercised to test the hypothesis that lactate is a major stimulus of the EIGR. METHODS: 11 patients with McArdle disease (3 male, 8 female; age: 35.5 (SD 13.9) years, height: 166 (8) cm, body mass: 75.2 (13.1) kg) were recruited for the study. The patients walked initially at 0.42 m/s, increasing by 0.14 m/s per 3 min stage. Exercise was terminated when participants completed 3 minutes at 1.80 m/s or when a Borg CR10 pain scale rating of "4" was reached. Stages were separated by 60 s for capillary blood sampling for analysis of hGH and blood lactate concentration. RESULTS:McArdle'spatients' blood lactate levels remained at resting levels (0.3-1.2 mmol/l) as exercise intensity increased. Nine out of 11 participants failed to demonstrate an EIGR obtaining hGH values below the clinical definition of a response (>3 microg/l). CONCLUSION: The absence of an EIGR in nine out of 11 participants suggests that lactate could play a major role in the EIGR in humans.
Authors: Matthew J Handford; Thomas E Bright; Peter Mundy; Jason Lake; Nicola Theis; Jonathan D Hughes Journal: Sports Med Date: 2022-05-10 Impact factor: 11.928
Authors: Song-Young Park; Yi Sub Kwak; Andrew Harveson; Joshua C Weavil; Kook E Seo Journal: Korean J Physiol Pharmacol Date: 2015-04-30 Impact factor: 2.016
Authors: Steven B Machek; Emilia E Zawieja; Jeffery L Heileson; Dillon R Harris; Dylan T Wilburn; Emma A Fletcher; Jason M Cholewa; Artur Szwengiel; Agata Chmurzynska; Darryn S Willoughby Journal: Nutrients Date: 2022-01-24 Impact factor: 5.717