Publicacions

Publicacions relacionades amb l’apnea:

• Ostrowski, A., Strzała, M., Stanula, A., Juszkiewicz, M., Pilch, W., & Maszczyk, A. (2012). The role of training in the development of adaptive mechanisms in freedivers. Journal of human kinetics, 32, 197–210.
• Schagatay, E. (2014). Human breath-hold diving ability and its underlying physiology. Human Evolution, 29(1-3): 125-140
• J, B., K, C., Stautemas, J., Lefevere, F., Derave, W., Lootens, L., … Boone, J. (2019). Eight weeks of static apnea training increases spleen volume but not acute spleen contraction. Respir Physiol Neurobiol, (266), 144–149.
• Breskovic, T., Uglesic, L., Zubin, P., Kuch, B., Kraljevic, J., Zanchi, J., … Cardiovascular, D. Z. (2011). Cardiovascular changes during underwater static and dynamic breath-hold dives in trained divers. J Appl, 111, 673–678.
• Ferretti, G., & Costa, M. (2003). Diversity in and adaptation to breath-hold diving in humans. Comparative Biochemistry Adn Physiology, 136(03), 205–213. 
• Ferretti, G. (2001). Extreme human breath-hold diving. Eur J Appl Physiol, 84, 254–271.
• Fernández, F, González-Ravé, JM., Juárez, D (2017). Breath-hold diving performance factors. Journal of Human Sport and Exercise, 12(3), 582–592.
• LM, S., CR, J., PG, R., MA, P., & MJ, P. (2012). Evidence of respiratory system remodelling in a competitive freediver. European Respiratory Journal, (VC), 2004–2006.
• K, T., H, S., & JD, S. (2017). Risk of Neurological Insult in Competitive Deep Breath-Hold Diving. Int J Sports Physisiol Perform, 12(2), 268–271.