Abstract

Shifts in scalp-recorded direct current (DC) potential were studied in relation to the changes in end-tidal partial CO 2 (PA co 2) or O 2 (PA o 2) of the expired gas either during hyperventilation (HV), hypoventilation (HYPO) or inhalation of high CO 2 content air during HV or HYPO in 10 healthy subjects. The DC potential was obtained through a chopper stabilized type of DC amplifier from Cz referred to linked earlobes. Each session was comprised of 3 min control, 3 min experimental and 5 min recovery periods. HV induced a negative shift of the DC potential of 765.5 ± 203.0 μV (mean ± SEM). Inhalation of 6% CO 2 air during HYPO induced a positive shift of the DC potential of 280.6 ± 62.8 μV (mean ± SEM). The magnitude of the DC potential shifts was linearly dependent on the changes in the end-tidal PA co 2 ( r = 0.78, P < 0.0001). There was no change in the cephalic inter-electrodes impedance during each experimental session. The results suggest that the scalp-recorded DC potentials reflect the changes in cortical excitability associated with the PA co 2 level.

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