Gerald S Zavorsky1, Nicolas V Christou, Do Jun Kim, Franco Carli, Nancy E Mayo. 1. Department of Obstetrics, Gynecology and Women's Health, School of Medicine, Saint Louis University, Saint Mary's Health Center, 6420 Clayton Road, Suite 290, Saint Louis, MO 63117, USA. zavorsky@slu.edu
Abstract
BACKGROUND: Morbidly obese men may have poorer pulmonary gas exchange compared to morbidly obese women (see Zavorsky et al., Chest 131:362-367, 2007). The purpose was to compare pulmonary gas exchange in morbidly obese men and women at rest and throughout exercise. METHODS: Twenty-five women (age=38+/-10 years, 164+/-7 cm, body mass index or BMI = 51+/-7 kg/m(2), peak oxygen consumption or VO(2peak)=2.0+/-0.4 l/min) and 17 men (age=43+/-9 years, 178+/-7 cm, BMI=50+/-10 kg/m(2), VO(2peak)=2.6+/-0.8 l/min) were recruited to perform a graded exercise test on a cycle ergometer with temperature-corrected arterial blood-gas samples taken at rest and every minute of exercise, including peak exercise. RESULTS: At rest, women were 98% predicted for pulmonary diffusion compared to 88% predicted in men. At rest, women had better pulmonary gas exchange compared to the men which was related to women having a lower waist-to-hip ratio (WHR; p<0.01). Only 20% of the subjects had an excessive alveolar-to-arterial oxygen partial pressure difference (>or=25 mmHg) at peak exercise, but 75% of the subjects showed inadequate compensatory hyperventilation at peak exercise (arterial carbon dioxide pressure >35 mmHg), and both were not different between genders. CONCLUSION: At rest, morbidly obese men have poorer pulmonary gas exchange and pulmonary diffusion compared to morbidly obese women. The better gas exchange in women is related to the lower WHR in the women. During exercise, few subjects showed disturbances in pulmonary gas exchange despite demonstrating poor compensatory hyperventilation at peak exercise.
BACKGROUND: Morbidly obesemen may have poorer pulmonary gas exchange compared to morbidly obesewomen (see Zavorsky et al., Chest 131:362-367, 2007). The purpose was to compare pulmonary gas exchange in morbidly obesemen and women at rest and throughout exercise. METHODS: Twenty-five women (age=38+/-10 years, 164+/-7 cm, body mass index or BMI = 51+/-7 kg/m(2), peak oxygen consumption or VO(2peak)=2.0+/-0.4 l/min) and 17 men (age=43+/-9 years, 178+/-7 cm, BMI=50+/-10 kg/m(2), VO(2peak)=2.6+/-0.8 l/min) were recruited to perform a graded exercise test on a cycle ergometer with temperature-corrected arterial blood-gas samples taken at rest and every minute of exercise, including peak exercise. RESULTS: At rest, women were 98% predicted for pulmonary diffusion compared to 88% predicted in men. At rest, women had better pulmonary gas exchange compared to the men which was related to women having a lower waist-to-hip ratio (WHR; p<0.01). Only 20% of the subjects had an excessive alveolar-to-arterial oxygen partial pressure difference (>or=25 mmHg) at peak exercise, but 75% of the subjects showed inadequate compensatory hyperventilation at peak exercise (arterial carbon dioxide pressure >35 mmHg), and both were not different between genders. CONCLUSION: At rest, morbidly obesemen have poorer pulmonary gas exchange and pulmonary diffusion compared to morbidly obesewomen. The better gas exchange in women is related to the lower WHR in the women. During exercise, few subjects showed disturbances in pulmonary gas exchange despite demonstrating poor compensatory hyperventilation at peak exercise.
Authors: M Bottai; F Pistelli; F Di Pede; L Carrozzi; S Baldacci; G Matteelli; A Scognamiglio; G Viegi Journal: Eur Respir J Date: 2002-09 Impact factor: 16.671
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Authors: Beno W Oppenheimer; Kenneth I Berger; Saleem Ali; Leopoldo N Segal; Robert Donnino; Stuart Katz; Manish Parikh; Roberta M Goldring Journal: PLoS One Date: 2016-04-01 Impact factor: 3.240