Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/44471
Title: Increased PIO2 at exhaustion in hypoxia enhances muscle activation and swiftly relieves fatigue: a placebo or a PIO2 dependent effect?
Authors: Torres-Peralta, Rafael 
Losa Reyna,Jose 
Morales-Alamo, David 
González-Izal, Miriam
Perez Suárez,Ismael 
Ponce-González, Jesús G.
Izquierdo, Mikel
Calbet, José A.L. 
UNESCO Clasification: 241110 Fisiología del músculo
Keywords: Fatigue
Performance
Hypoxia
Altitude
Muscle activation, et al
Issue Date: 2016
Publisher: 1664-042X
Journal: Frontiers in Physiology 
Abstract: © 2016 Torres-Peralta, Losa-Reyna, Morales-Alamo, González-Izal, Pérez-Suárez, Ponce-González, Izquierdo and Calbet.To determine the level of hypoxia from which muscle activation (MA) is reduced during incremental exercise to exhaustion (IE), and the role played by PIO2 in this process, ten volunteers (21 ± 2 years) performed four IE in severe acute hypoxia (SAH) (PIO2 = 73 mmHg). Upon exhaustion, subjects were asked to continue exercising while the breathing gas mixture was swiftly changed to a placebo (73 mmHg) or to a higher PIO2 (82, 92, 99, and 142 mmHg), and the IE continued until a new exhaustion. At the second exhaustion, the breathing gas was changed to room air (normoxia) and the IE continued until the final exhaustion. MA, as reflected by the vastus medialis (VM) and lateralis (VL) EMG raw and normalized root mean square (RMSraw, and RMSNz, respectively), normalized total activation index (TAINz), and burst duration were 8-20% lower at exhaustion in SAH than in normoxia (P < 0.05). The switch to a placebo or higher PIO2 allowed for the continuation of exercise in all instances. RMSraw, RMSNz, and TAINz were increased by 5-11% when the PIO2 was raised from 73 to 92, or 99 mmHg, and VL and VM averaged RMSraw by 7% when the PIO2 was elevated from 73 to 142 mmHg (P < 0.05). The increase of VM-VL average RMSraw was linearly related to the increase in PIO2, during the transition from SAH to higher PIO2 (R2 = 0.915, P < 0.05). In conclusion, increased PIO2 at exhaustion reduces fatigue and allows for the continuation of exercise in moderate and SAH, regardless of the effects of PIO2 on MA. At task failure, MA is increased during the first 10 s of increased PIO2 when the IE is performed at a PIO2 close to 73 mmHg and the PIO2 is increased to 92 mmHg or higher. Overall, these findings indicate that one of the central mechanisms by which severe hypoxia may cause central fatigue and task failure is by reducing the capacity for reaching the appropriate level of MA to sustain the task. The fact that at exhaustion in severe hypoxia the exercise was continued with the placebo-gas mixture demonstrates that this central mechanism has a cognitive component.
URI: http://hdl.handle.net/10553/21253
ISSN: 1664-042X
DOI: 10.3389/fphys.2016.00333
Source: Frontiers in Physiology[EISSN 1664-042X],v. 7, (Agosto 2016)
Rights: by-nc-nd
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