Relevant bibliographies by topics / Hypoxia, Kayaking, Cycling, High intensity exercise

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Academic literature on the topic 'Hypoxia, Kayaking, Cycling, High intensity exercise'

Author: Grafiati
Published: 4 June 2021
Last updated: 9 February 2022

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Journal articles on the topic "Hypoxia, Kayaking, Cycling, High intensity exercise"

1

Smirmaul, Bruno P. C., Antonio Carlos de Moraes, Luca Angius, and Samuele M. Marcora. "Effects of caffeine on neuromuscular fatigue and performance during high-intensity cycling exercise in moderate hypoxia." European Journal of Applied Physiology 117, no. 1 (November 18, 2016): 27–38. http://dx.doi.org/10.1007/s00421-016-3496-6.

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2

Faulhaber, Martin, Katharina Gröbner, Linda Rausch, Hannes Gatterer, and Verena Menz. "Effects of Acute Hypoxia on Lactate Thresholds and High-Intensity Endurance Performance—A Pilot Study." International Journal of Environmental Research and Public Health 18, no. 14 (July 16, 2021): 7573. http://dx.doi.org/10.3390/ijerph18147573.

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The present project compared acute hypoxia-induced changes in lactate thresholds (methods according to Mader, Dickhuth and Cheng) with changes in high-intensity endurance performance. Six healthy and well-trained volunteers conducted graded cycle ergometer tests in normoxia and in acute normobaric hypoxia (simulated altitude 3000 m) to determine power output at three lactate thresholds (PMader, PDickhuth, PCheng). Subsequently, participants performed two maximal 30-min cycling time trials in normoxia (test 1 for habituation) and one in normobaric hypoxia to determine mean power output (Pmean).
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3

Sun, Shengyan, Paul D. Loprinzi, Hongwei Guan, Liye Zou, Zhaowei Kong, Yang Hu, Qingde Shi, and Jinlei Nie. "The Effects of High-Intensity Interval Exercise and Hypoxia on Cognition in Sedentary Young Adults." Medicina 55, no. 2 (February 10, 2019): 43. http://dx.doi.org/10.3390/medicina55020043.

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Background and Objectives: Limited research has evaluated the effects of acute exercise on cognition under different conditions of inspired oxygenation. Thus, the purpose of this study was to examine the effects of high-intensity interval exercise (HIE) under normoxia (inspired fraction of oxygen (FIO2): 0.209) and moderate hypoxia (FIO2: 0.154) on cognitive function. Design: A single-blinded cross-over design was used to observe the main effects of exercise and oxygen level, and interaction effects on cognitive task performance. Methods: Twenty inactive adults (10 males and 10 females, 19–27
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4

Decroix, Lieselot, Cajsa Tonoli, Elodie Lespagnol, Constantino Balestra, Amandine Descat, Marie José Drittij-Reijnders, Jamie R. Blackwell, et al. "One-week cocoa flavanol intake increases prefrontal cortex oxygenation at rest and during moderate-intensity exercise in normoxia and hypoxia." Journal of Applied Physiology 125, no. 1 (July 1, 2018): 8–18. http://dx.doi.org/10.1152/japplphysiol.00055.2018.

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During exercise in hypoxia, O2 delivery to brain and muscle is compromised, and oxidative stress is elicited. Cocoa flavanols (CF) have antioxidant capacities and can increase blood flow by stimulating endothelial function. We aimed to examine the effects of 7-day CF intake on oxidative stress, nitric oxide production, and tissue oxygenation in response to exercise in normobaric hypoxia (14.3% O2). In a randomized, double-blind, cross-over study, 14 well-trained male cyclists completed four trials: exercise in normoxia or hypoxia, after 7-day CF or placebo intake. Flow-mediated dilation (FMD)
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5

Suhr, Frank, Klara Brixius, Markus de Marées, Birgit Bölck, Heinz Kleinöder, Silvia Achtzehn, Wilhelm Bloch, and Joachim Mester. "Effects of short-term vibration and hypoxia during high-intensity cycling exercise on circulating levels of angiogenic regulators in humans." Journal of Applied Physiology 103, no. 2 (August 2007): 474–83. http://dx.doi.org/10.1152/japplphysiol.01160.2006.

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This study aimed to investigate the biological response to hypoxia as a stimulus, as well as exercise- and vibration-induced shear stress, which is known to induce angiogenesis. Twelve male cyclists (27.8 ± 5.4 yr) participated in this study. Each subject completed four cycle training sessions under normal conditions (NC) without vibration, NC with vibration, normobaric hypoxic conditions (HC) without vibration, and HC with vibration. Each session lasted 90 min, and sessions were held at weekly intervals in a randomized order. Five blood samples (pretraining and 0 h post-, 0.5 h post-, 1 h pos
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6

Breenfeldt Andersen, Andreas, Jacob Bejder, Thomas Bonne, Niels Vidiendal Olsen, and Nikolai Nordsborg. "Repeated Wingate sprints is a feasible high-quality training strategy in moderate hypoxia." PLOS ONE 15, no. 11 (November 13, 2020): e0242439. http://dx.doi.org/10.1371/journal.pone.0242439.

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Sprint-interval training (SIT) is efficient at improving maximal aerobic capacity and anaerobic fitness at sea-level and may be a feasible training strategy at altitude. Here, it was evaluated if SIT intensity can be maintained in mild to moderate hypoxia. It was hypothesized that 6 x 30 s Wingate sprint performance with 2 min active rest between sprints can be performed in hypoxic conditions corresponding to ~3,000 m of altitude without reducing mean power output (MPO). In a single-blinded, randomized crossover design, ten highly-trained male endurance athletes with a maximal oxygen uptake (V
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