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Atrial natriuretic peptide during and after maximal and submaximal exercise under normoxic and hypoxic conditions (1990)

Schmidt, W. ; Brabant, G. ; Kröger, C. ; [et al.]

Springer

European journal of applied physiology 61 (1990), S. 398-407

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ISSN: 1439-6327

Keywords: Aldosterone ; Plasma volume ; Osmolality ; Sodium ; Heart rate

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The present study was designed to investigate the influence of exercise intensity and duration as well as of inspiratory oxygen content on plasma atrial natriuretic peptide concentration ([ANP]) and furthermore to compare ANP with the effect on aldosterone concentration ([Aldo]). Ten untrained male subjects performed a maximal exercise test (ME) on a cycle ergometer and a submaximal test of 60-min duration at 60% of maximal performance (SE) under normoxia (N) and normobaric hypoxia (H) (partial pressure of oxygen: 12.3 kPa). Five subjects were exposed to hypoxia at rest for 90 min. The [ANP] was mostly affected by exercise intensity (5 min after ME-N, +298.1%, SEM 39.1%) and less by exercise duration (at the end of SE-N: +229.5%, SEM 33.2%). Hypoxia had no effect at rest and reduced the exercise response (ME-H, +184.3%, SEM 27.2%; SE-H, +172.4%, SEM 15.7%). In contrast to ANP, the Aldo response was affected more by duration at submaximal level (+290.1%, SEM 34.0%) than by short maximal exercise (+235.7%, SEM 22.2%). Exposure to hypoxia rapidly decreased [Aldo] (−28.5%, SEM 3.7% after 30 min, P〈0.01), but did not influence the exercise effects (ME-H, +206.2%, SEM 26.4%; SE-H, +321.6%, SEM 51.6%). The [ANP] increase was faster than that of [Aldo] during the maximal tests and there was no difference during submaximal exercise. Changes in plasma volume (PV), sodium concentration, and osmolality (Osm) were most pronounced during maximal exercise (for ME-N: PV −13.1%, SD 3.6%, sodium +6.2 mmol·1−1, SD 2.7, Osm +18.4 mosmol·kg H2O−1, SD 6.5). Regression analysis showed high correlations between changes in [ANP] and in Osm during and after maximal exercise and between changes in [ANP] and heart rate for submaximal exercise. It is concluded that besides other mechanisms increased Osm might be involved in the exercise-dependent increase of plasma [ANP].

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236059

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Effects of exercise during normoxia and hypoxia on the growth hormone—insulin-like growth factor I axis (1995)

Schmidt, W. ; Doré, S. ; Hilgendorf, A. ; [et al.]

Springer

European journal of applied physiology 71 (1995), S. 424-430

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ISSN: 1439-6327

Keywords: Somatotropin ; Insulin-like growth factor I (IGF I) ; Exercise ; Hypoxia ; Glucose metabolism

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The response of plasma insulin-like growth factor I (IGF I) to exercise-induced increase of total human growth hormone concentration [hGHtot] and of its molecular species [hGH20kD] was investigated up to 48 h after an 1-h ergometer exercise at 60% of maximal capacity during normoxia (N) and hypoxia (H) (inspiratory partial pressure of oxygen = 92 mmHg (12.7 kPa);n = 8). Lactate and glucose concentrations were differently affected during both conditions showing higher levels under H. Despite similar maximal concentrations, the increase of human growth hormone (hGH) was faster during exercise during H than during N[hGHtot after 30 min: 8.6 (SD 11.4) ng · ml−1 (N); 16.2 (SD 11.6) ng · ml−1 (H);P 〈 0.05]. The variations in plasma [hGH20kD] were closely correlated to those of [hGHtot], but its absolute concentration did not exceed 3% of the [hGHtot]. Plasma IGF I concentration was significantly decreased 24 h after both experimental conditions [N from 319 (SD 71) ng · ml-1 to 228 (SD 72) ng · ml−1,P 〈 0.05; H from 253 (SD 47) to 200 (SD 47) ng · ml−1,P 〈 0.01], and was still lower than basal levels 48 h after exercise during H [204 (SD 44) ng · ml−1,P 〈 0.01]. Linear regression analysis yielded no significant correlation between increase in plasma [hGHtot] or [hGH20kD] during exercise and the plasma IGF I concentration after exercise. It was concluded that the exercise-associated elevated plasma [hGH] did not increase the hepatic IGF I production. From our study it would seem that the high energy demand during and after the long-lasting intensive exercise may have overridden an existing hGH stimulus on plasma IGH I, which was most obvious during hypoxia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00635876

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