Changes in EEG activity before and after exhaustive exercise in sedentary women in neutral and hot environments.

This study examined the effect of hyperthermia on brain electrical activity measured with encephalography during prolonged exhaustive exercise in a group of sedentary women (VO(2)max = 35 +/- 4 mL kg min(-1)). Two strenuous cycling exercises were performed either in neutral (N-Ex) or in heat (H-Ex) conditions. Tympanic temperature (Tty), heart rate (HR), body mass loss (BML), plasma volume decrease, and brain electrical activity [EEG: alpha (8-13 Hz) and beta(13-30 Hz)-band and alpha/beta index of fatigue: the ratio between EEG activity in the alpha band and beta-band] were recorded throughout the cycling sessions. The Tty increase 1.0 degrees C in the N-Ex and 1.8 degrees C in H-Ex. HR increased in both sessions but with significantly higher values during the H-Ex session when compared with the N-Ex session (p < 0.001) (from 85 +/- 4 beats min(-1) to 164 +/- 6 beats min(-1) and from 83 +/- 6 beats min(-1) to 181 +/- 8 beats min(-1), respectively in N-Ex and in H-Ex). This was associated with a significantly higher BML (p < 0.05) and a higher plasma volume decrease in the H-Ex session (p < 0.01). The alpha/beta index increased significantly during both trials particularly during the H-Ex session (p < 0.05). This was associated with a significant decrease of time to exhaustion (-34%). We suggest that exhausting work in the heat induced a change in gross brain activity (alpha/beta ratio) compared to a longer, less thermally demanding exposure. Fatigue in the heat could be attributed to central factors as well as thermal, cardiac and hydro-electrolytic impairment.