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Literature DB >> 7389715

Work performance breathing normoxic nitrogen or helium gas mixtures.

D L Spitler, S M Horvath, K Kobayashi, J A Wagner.

Abstract

Twelve subjects completed a progressive treadmill test to maximal aerobic capacity while breathing air or a 79% helium--21% oxygen gas mixture (HeO2). Metabolic and thermoregulatory responses to work while breathing the two mixtures were compared at rest, 30-40%, 60-70%, and 85-90% of maximal performance, and at maximal effort. Ventilation, ventilatory equivalent, and respiratory rates were increased and oxygen uptakes decreased by breathing HeO2 when the level of work exceeded 85-90% of maximum. Heat loss through the respiratory tract was greater breathing HeO2. The reduction in maximal oxygen uptake is probably due to a reduction in the oxygen cost of breathing a less dense gas. It was not related to a lower body temperature and probably not to O2 transport or circulatory limitation. HeO2 breathing had no effect on maximal mechanical work capacity.

Entities: Chemical

Mesh：

Substances：
Helium
Nitrogen

Year: 1980 PMID： 7389715 DOI： 10.1007/bf00422446

Source DB: PubMed Journal: Eur J Appl Physiol Occup Physiol ISSN： 0301-5548

22 in total

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Authors: A B OTIS
Journal: Physiol Rev Date: 1954-07 Impact factor: 37.312

2. THE EFFECTS OF INHALATION OF HELIUM MIXED WITH OXYGEN ON THE MECHANICS OF RESPIRATION.

Authors: A L Barach; M Eckman
Journal: J Clin Invest Date: 1936-01 Impact factor: 14.808

3. Physiological responses of men working in 25.5 degrees C water, breathing air or helium tri-mix.

Authors: P F Hoar; L W Raymond; H C Langworthy; R E Johnsonbaugh; J Sode
Journal: J Appl Physiol Date: 1976-04 Impact factor: 3.531

4. Maximal work performance at raised air and helium-oxygen pressures.

Authors: L Fagraeus
Journal: Acta Physiol Scand Date: 1974-08

5. Study of man during a 56-day exposure to an oxygen-helium atmosphere at 258 mm. Hg total pressure. V. Exercise performance and cardiovascular response.

Authors: H J Zeft; W G Robertson; B E Welch
Journal: Aerosp Med Date: 1966-06

6. Study of man during a 56-day exposure to an oxygen-helium atmosphere at 258 mm. Hg total pressure. VI. Excretion of steroids and catecholamines.

Authors: F Ulvedal; A J Roberts
Journal: Aerosp Med Date: 1966-06

7. The effect of O 2 breathing on maximal aerobic power.

Authors: R Margaria; E Camporesi; P Aghemo; G Sassi
Journal: Pflugers Arch Date: 1972 Impact factor: 3.657

8. Respiratory gas exchange in exercise during helium-oxygen breathing.

Authors: T M Murphy; W H Clark; I P Buckingham; W A Young
Journal: J Appl Physiol Date: 1969-03 Impact factor: 3.531

9. The Use of a Helium-Oxygen Mixture during Maximum Expiratory Flow to Demonstrate Obstruction in Small Airways in Smokers.

Authors: J Dosman; F Bode; J Urbanetti; R Martin; P T Macklem
Journal: J Clin Invest Date: 1975-05 Impact factor: 14.808

Work performance breathing normoxic nitrogen or helium gas mixtures.

1. The work of breathing.

2. THE EFFECTS OF INHALATION OF HELIUM MIXED WITH OXYGEN ON THE MECHANICS OF RESPIRATION.

3. Physiological responses of men working in 25.5 degrees C water, breathing air or helium tri-mix.

4. Maximal work performance at raised air and helium-oxygen pressures.

5. Study of man during a 56-day exposure to an oxygen-helium atmosphere at 258 mm. Hg total pressure. V. Exercise performance and cardiovascular response.

6. Study of man during a 56-day exposure to an oxygen-helium atmosphere at 258 mm. Hg total pressure. VI. Excretion of steroids and catecholamines.

7. The effect of O 2 breathing on maximal aerobic power.

8. Respiratory gas exchange in exercise during helium-oxygen breathing.

9. The Use of a Helium-Oxygen Mixture during Maximum Expiratory Flow to Demonstrate Obstruction in Small Airways in Smokers.

10. Maximal work capacity of women during acute hypoxia.

1. Lack of importance of respiratory muscle load in ventilatory regulation during heavy exercise in humans.

2. Heliox breathing equally influences respiratory mechanics and cycling performance in trained males and females.

3. The effects of breathing He-O2 mixtures on maximal oxygen consumption in normoxic and hypoxic men.

4. Ventilatory adjustments during sustained resistive unloading in exercising humans.