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Felipe A. Contreras Briceño
Academic Researcher


+56 9 82288153


Insitute of Health Sciences

University of O'Higgins



Increased active phase atrial contraction is related to marathon runner performance


Journal article


L. Gabrielli, Sebastián Herrera, Felipe Contreras–Briceño, J. Vega, M. Ocaranza, F. Yáñez, R. Fernández, Rodrigo Saavedra, M. Sitges, Lorena García, M. Chiong, S. Lavandero, P. Castro
European Journal of Applied Physiology, 2018

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APA   Click to copy
Gabrielli, L., Herrera, S., Contreras–Briceño, F., Vega, J., Ocaranza, M., Yáñez, F., … Castro, P. (2018). Increased active phase atrial contraction is related to marathon runner performance. European Journal of Applied Physiology.


Chicago/Turabian   Click to copy
Gabrielli, L., Sebastián Herrera, Felipe Contreras–Briceño, J. Vega, M. Ocaranza, F. Yáñez, R. Fernández, et al. “Increased Active Phase Atrial Contraction Is Related to Marathon Runner Performance.” European Journal of Applied Physiology (2018).


MLA   Click to copy
Gabrielli, L., et al. “Increased Active Phase Atrial Contraction Is Related to Marathon Runner Performance.” European Journal of Applied Physiology, 2018.


BibTeX   Click to copy

@article{l2018a,
  title = {Increased active phase atrial contraction is related to marathon runner performance},
  year = {2018},
  journal = {European Journal of Applied Physiology},
  author = {Gabrielli, L. and Herrera, Sebastián and Contreras–Briceño, Felipe and Vega, J. and Ocaranza, M. and Yáñez, F. and Fernández, R. and Saavedra, Rodrigo and Sitges, M. and García, Lorena and Chiong, M. and Lavandero, S. and Castro, P.}
}

Abstract

Left atrial (LA) contraction is essential for left ventricular (LV) filling during exertion. We sought to evaluate the relationship of LA contraction and exercise capacity in trained athletes. Sixteen male marathon runners were recruited and allocated into two groups according to their previous training status (≥ or < 100 km peer week). All subjects underwent a baseline cardiopulmonary test to evaluate maximal aerobic capacity and a transthoracic echocardiography previous and immediate post-marathon. LA contractile function evaluation was accomplished by measuring the negative deformation of the post P wave strain curve (LASa). LASa change was defined as LASa pre-marathon minus LASa immediate post-marathon. Mean age was 39 ± 6 years. LA volume index (39 ± 13 vs. 31 ± 5 mL/m2, p = 0.04), LV mass index (91 ± 21 vs. 73 ± 12 g/m2, p = 0.04), VO2 max (59 ± 3 vs. 50 ± 8 mL/kg/min, p = 0.036) were higher in more intensive trained group and marathon time was lower (185 ± 14 vs. 219 ± 24 min, p = 0.017). An increase in LASa after immediate post-marathon was observed in both groups, which was significantly greater in the highly trained group (18.9 ± 5.8 vs. 6.3 ± 3.5%, p < 0.003). Maximum VO2 measured previous to the marathon was inversely related to marathon time and directly correlated to LASa change (rho = 0.744, p = 0.001, rho = 0.546, p = 0.028, respectively). Athletes with more intensive training load have larger LV mass and LA size. An increase in LA contraction was seen post-marathon, which was significantly greater in the highly trained group. This increase in the LA contraction was related to the maximum VO2 measured previous to the marathon and to performance in a highly demanding test.


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