4.5 Article

Cardiac remodeling and functional adaptations consecutive to altitude training in rats: implications for sea level aerobic performance

Journal

JOURNAL OF APPLIED PHYSIOLOGY
Volume 98, Issue 1, Pages 83-92

Publisher

AMER PHYSIOLOGICAL SOC
DOI: 10.1152/japplphysiol.00214.2004

Keywords

maximal stroke volume; chronic hypoxia; cardiac preload; diastolic function

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This study questioned the effect of living and training at moderate altitude on cardiac morphological and functional adaptations and tested the incidences of potential specific adaptations compared with aerobic sea level training on maximal left ventricular performance. Sea level-native rats were randomly assigned to N (living in normoxia), NT (living and training 5 days/wk for 5 wk in normoxia), CH ( living in hypoxia, 2,800 m), and CHT ( living and training 5 days/wk for 5 wk in hypoxia, 2,800 m) groups. Cardiac adaptations were evaluated throughout the study period by Doppler echocardiography. Maximal stroke volume (LVSVmax) was measured during volume overloading before and after the study period. Finally, at the end of the study period, passive pressure-volume relationships on isolated heart and cardiac weighing were obtained. Altitude training resulted in a specific left ventricular (LV) remodeling compared with NT, characterized by an increase in wall thicknesses without any alteration in internal dimensions. These morphological adaptations associated with hypoxia-induced alterations in pulmonary outflow and preload conditions led to a decrease in LV filling and subsequently no improvement in LV performance during resting physiological conditions in CHT compared with NT. Such a lack of improvement was confirmed during volume overloading that simulated maximal effort (LVSVmax pretest: NT = 0.58 +/- 0.05, CHT = 0.57 +/- 0.08 ml; posttest: NT = 0.72 +/- 0.06, CHT = 0.58 +/- 0.07 ml; NT vs. CHT in posttest session, P < 0.05). Maximal aerobic velocities increased to the same extent in NT and CHT rats despite marked polycythemia in the latter. The lack of LVSVmax improvement resulting from altitude training-induced cardiac morphological and functional adaptations could be responsible for this phenomenon.

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