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Effect of acute hypoxia on respiratory muscle fatigue in healthy humans

BACKGROUND: Greater diaphragm fatigue has been reported after hypoxic versus normoxic exercise, but whether this is due to increased ventilation and therefore work of breathing or reduced blood oxygenation per se remains unclear. Hence, we assessed the effect of different blood oxygenation level on...

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Detalles Bibliográficos
Autores principales: Verges, Samuel, Bachasson, Damien, Wuyam, Bernard
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2010
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2929221/
https://www.ncbi.nlm.nih.gov/pubmed/20701769
http://dx.doi.org/10.1186/1465-9921-11-109
Descripción
Sumario:BACKGROUND: Greater diaphragm fatigue has been reported after hypoxic versus normoxic exercise, but whether this is due to increased ventilation and therefore work of breathing or reduced blood oxygenation per se remains unclear. Hence, we assessed the effect of different blood oxygenation level on isolated hyperpnoea-induced inspiratory and expiratory muscle fatigue. METHODS: Twelve healthy males performed three 15-min isocapnic hyperpnoea tests (85% of maximum voluntary ventilation with controlled breathing pattern) in normoxic, hypoxic (SpO(2 )= 80%) and hyperoxic (FiO(2 )= 0.60) conditions, in a random order. Before, immediately after and 30 min after hyperpnoea, transdiaphragmatic pressure (P(di,tw )) was measured during cervical magnetic stimulation to assess diaphragm contractility, and gastric pressure (P(ga,tw )) was measured during thoracic magnetic stimulation to assess abdominal muscle contractility. Two-way analysis of variance (time x condition) was used to compare hyperpnoea-induced respiratory muscle fatigue between conditions. RESULTS: Hypoxia enhanced hyperpnoea-induced P(di,tw )and P(ga,tw )reductions both immediately after hyperpnoea (P(di,tw ): normoxia -22 ± 7% vs hypoxia -34 ± 8% vs hyperoxia -21 ± 8%; P(ga,tw ): normoxia -17 ± 7% vs hypoxia -26 ± 10% vs hyperoxia -16 ± 11%; all P < 0.05) and after 30 min of recovery (P(di,tw ): normoxia -10 ± 7% vs hypoxia -16 ± 8% vs hyperoxia -8 ± 7%; P(ga,tw ): normoxia -13 ± 6% vs hypoxia -21 ± 9% vs hyperoxia -12 ± 12%; all P < 0.05). No significant difference in P(di,tw )or P(ga,tw )reductions was observed between normoxic and hyperoxic conditions. Also, heart rate and blood lactate concentration during hyperpnoea were higher in hypoxia compared to normoxia and hyperoxia. CONCLUSIONS: These results demonstrate that hypoxia exacerbates both diaphragm and abdominal muscle fatigability. These results emphasize the potential role of respiratory muscle fatigue in exercise performance limitation under conditions coupling increased work of breathing and reduced O(2 )transport as during exercise in altitude or in hypoxemic patients.