Abstract
Vassilakopoulos et al. (Am. J. Physiol 1999; 277:R1013–R1019) demonstrated a breathing-induced interleukin-6 (IL-6) response. Whether inspiratory muscle training (IMT) can attenuate this response is unknown. Therefore, we tested the hypothesis that the IL-6 response to volitional hyperpnoea (VH) could be reduced with IMT and investigated whether this response was related to diaphragm fatigue (assessed by phrenic nerve stimulation) and/or changes in blood lactate concentration ([Lac-]B).
Twelve male participants performed either 6 weeks of pressure-threshold IMT (n=6) or placebo (PLA) training (n=6). Prior to training, a maximal incremental cycling test (max) was performed. Before and after training, participants undertook two 1 h experimental trials on separate days: passive rest or VH. In VH, they voluntarily mimicked at rest the breathing and respiratory muscle recruitment pattern equal to 70-80% of the maximum minute ventilation achieved during max.
IL-6 increased (P<0.01) following the pre-training VH and was (mean ± SD) 5.02 ± 0.63 and 4.87 ± 0.86 pg·mL-1 at 2 h post for IMT and PLA groups, respectively. [Lac-]B remained (P<0.01) elevated above baseline values for the duration of VH at 1.36 ± 0.24 and 1.29 ± 0.18 mmol⋅L-1. The IL-6 (-29%) and [Lac-]B (-11%) responses were reduced (P<0.05) for the IMT, but not for the PLA group. There were no increases in IL-6 or [Lac-]B over time for either group during passive rest and no evidence of diaphragm fatigue during any trial.
In conclusion, 6 weeks of IMT reduces the magnitude of the IL-6 response to VH with no evidence of diaphragm fatigue. The reduction in IL-6 may be related to the post-IMT reduction in [Lac-]B.
- © 2012 ERS