Geert Kleinnibbelink
Exercise-Induced Cardiac Function under Hypoxia 2 59 15. La Gerche A, Heidbuchel H, Burns AT, Mooney DJ, Taylor AJ, Pfluger HB, Inder WJ, Macisaac AI and Prior DL. Disproportionate exercise load and remodeling of the athlete’s right ventricle. Med Sci Sports Exerc . 2011;43:974-81. 16. Mazzeo RS. Physiological responses to exercise at altitude : an update. Sports Med . 2008;38:1-8. 17. Kleinnibbelink G, Stens NA, Fornasiero A, Speretta GF, Van Dijk APJ, Low DA, Oxborough DL and Thijssen DHJ. The acute and chronic effects of high-intensity exercise in hypoxia on blood pressure and post-exercise hypotension: A randomized cross-over trial. Medicine . 2020;99:e22411. 18. Liu S, Thomas SG, Sasson Z, Banks L, Busato M and Goodman JM. Blood pressure reduction following prolonged exercise in young and middle-aged endurance athletes. Eur J Prev Cardiol . 2013;20:956-62. 19. Naeije R and Dedobbeleer C. Pulmonary hypertension and the right ventricle in hypoxia. Exp Physiol . 2013;98:1247-56. 20. Naeije R and Chesler N. Pulmonary circulation at exercise. Compr Physiol . 2012;2:711-41. 21. Groves BM, Reeves JT, Sutton JR, Wagner PD, Cymerman A, Malconian MK, Rock PB, Young PM and Houston CS. Operation Everest II: elevated high-altitude pulmonary resistance unresponsive to oxygen. J Appl Physiol (1985) . 1987;63:521-30. 22. Groepenhoff H, Overbeek MJ, Mule M, van der Plas M, Argiento P, Villafuerte FC, Beloka S, Faoro V, Macarlupu JL, Guenard H, de Bisschop C, Martinot JB, Vanderpool R, Penaloza D and Naeije R. Exercise pathophysiology in patients with chronic mountain sickness exercise in chronic mountain sickness. Chest . 2012;142:877-884. 23. LuksAM, LevettD,MartinDS, GossCH,Mitchell K, FernandezBO, FeelischM, GrocottMP, Swenson ER and Caudwell Xtreme Everest I. Changes in acute pulmonary vascular responsiveness to hypoxia during a progressive ascent to high altitude (5300 m). Exp Physiol . 2017;102:711-724. 24. Wierzbowska-Drabik K, Picano E, Bossone E, Ciampi Q, Lipiec P and Kasprzak JD. The feasibility and clinical implication of tricuspid regurgitant velocity and pulmonary flow acceleration time evaluation for pulmonary pressure assessment during exercise stress echocardiography. Eur Heart J Cardiovasc Imaging . 2019;20:1027-1034. 25. Parasuraman S, Walker S, Loudon BL, Gollop ND, Wilson AM, Lowery C and Frenneaux MP. Assessment of pulmonary artery pressure by echocardiography-A comprehensive review. Int J Cardiol Heart Vasc . 2016;12:45-51. 26. Augustine DX, Coates-Bradshaw LD, Willis J, Harkness A, Ring L, Grapsa J, Coghlan G, Kaye N, Oxborough D, Robinson S, Sandoval J, Rana BS, Siva A, Nihoyannopoulos P, Howard LS, Fox K, Bhattacharyya S, Sharma V, Steeds RP and Mathew T. Echocardiographic assessment of pulmonary hypertension: a guideline protocol from the British Society of Echocardiography. Echo Res Pract . 2018;5:G11-G24. 27. Lord R, George K, Somauroo J, Stembridge M, Jain N, Hoffman MD, Shave R, Haddad F, Ashley E, Jones H and Oxborough D. Alterations in Cardiac Mechanics Following Ultra-Endurance Exercise: Insights from Left and Right Ventricular Area-Deformation Loops. J Am Soc Echocardiogr . 2016;29:879-887 e1.
Made with FlippingBook
RkJQdWJsaXNoZXIy ODAyMDc0