RESUMO
Objective To explore the effect of oxygen inhalation on auditory sensory gating P50 in healthy human brain. Methods 28 healthy male academician right-handed were included. They were divided into control group (n=12) and experiment group (n=16) according to the random numerical table, and blinded about groups. The subjects inhaled pure oxygen in the experiment group, and air in the control group through a mask for 60 min. The electroencephalograph was recorded while an auditory paired-click sensory gating test was conducted during 4 study periods:before inhalation (pre0), inhale for 20 min (Oxy20) and 50 min (Oxy50), and 30 min after inhalation (post30). The la-tency and amplitude (S1-S2) of auditory sensory gating P50 were calculated. Results The latencies of P50 from S1 were stable in each group (P>0.7), and the latency of Oxy50 was shorter in the experiment group than in the control group (P0.30), and there was no significant difference between groups in all the time points (P>0.05). The amplitudes of (S1-S2) of P50 were stable in the control group (P=0.70), and was higher on Oxy20 (P=0.04) and Oxy50 (P=0.02) than post30 in the experi-ment group. There was no difference between the groups in all the time points (P>0.05). Conclusion Oxygen inhalation may be helpful to shorten the active time to stimulate, and trend to enhancing the amplitude of P50.
RESUMO
@#Objective To explore the effect of oxygen inhalation on auditory sensory gating P50 in healthy human brain. Methods 28 healthy male academician right-handed were included. They were divided into control group (n=12) and experiment group (n=16) according to the random numerical table, and blinded about groups. The subjects inhaled pure oxygen in the experiment group, and air in the control group through a mask for 60 min. The electroencephalograph was recorded while an auditory paired-click sensory gating test was conducted during 4 study periods: before inhalation (pre0), inhale for 20 min (Oxy20) and 50 min (Oxy50), and 30 min after inhalation (post30). The latency and amplitude (S1-S2) of auditory sensory gating P50 were calculated. Results The latencies of P50 from S1 were stable in each group (P>0.7), and the latency of Oxy50 was shorter in the experiment group than in the control group (P<0.05). The latencies from S2 were stable in each group (P>0.30), and there was no significant difference between groups in all the time points (P>0.05). The amplitudes of (S1-S2) of P50 were stable in the control group (P=0.70), and was higher on Oxy20 (P=0.04) and Oxy50 (P=0.02) than post30 in the experiment group. There was no difference between the groups in all the time points (P>0.05). Conclusion Oxygen inhalation may be helpful to shorten the active time to stimulate, and trend to enhancing the amplitude of P50.
RESUMO
@#Objective To explore the effect of oxygen inhalation on auditory sensory gating P50 in healthy human brain. Methods 28 healthy male academician right-handed were included. They were divided into control group (n=12) and experiment group (n=16) according to the random numerical table, and blinded about groups. The subjects inhaled pure oxygen in the experiment group, and air in the control group through a mask for 60 min. The electroencephalograph was recorded while an auditory paired-click sensory gating test was conducted during 4 study periods: before inhalation (pre0), inhale for 20 min (Oxy20) and 50 min (Oxy50), and 30 min after inhalation (post30). The latency and amplitude (S1-S2) of auditory sensory gating P50 were calculated. Results The latencies of P50 from S1 were stable in each group (P>0.7), and the latency of Oxy50 was shorter in the experiment group than in the control group (P<0.05). The latencies from S2 were stable in each group (P>0.30), and there was no significant difference between groups in all the time points (P>0.05). The amplitudes of (S1-S2) of P50 were stable in the control group (P=0.70), and was higher on Oxy20 (P=0.04) and Oxy50 (P=0.02) than post30 in the experiment group. There was no difference between the groups in all the time points (P>0.05). Conclusion Oxygen inhalation may be helpful to shorten the active time to stimulate, and trend to enhancing the amplitude of P50.
RESUMO
@#Objective To explore the effect of oxygen inhalation on auditory sensory gating P50 in healthy human brain. Methods 28 healthy male academician right-handed were included. They were divided into control group (n=12) and experiment group (n=16) according to the random numerical table, and blinded about groups. The subjects inhaled pure oxygen in the experiment group, and air in the control group through a mask for 60 min. The electroencephalograph was recorded while an auditory paired-click sensory gating test was conducted during 4 study periods: before inhalation (pre0), inhale for 20 min (Oxy20) and 50 min (Oxy50), and 30 min after inhalation (post30). The latency and amplitude (S1-S2) of auditory sensory gating P50 were calculated. Results The latencies of P50 from S1 were stable in each group (P>0.7), and the latency of Oxy50 was shorter in the experiment group than in the control group (P<0.05). The latencies from S2 were stable in each group (P>0.30), and there was no significant difference between groups in all the time points (P>0.05). The amplitudes of (S1-S2) of P50 were stable in the control group (P=0.70), and was higher on Oxy20 (P=0.04) and Oxy50 (P=0.02) than post30 in the experiment group. There was no difference between the groups in all the time points (P>0.05). Conclusion Oxygen inhalation may be helpful to shorten the active time to stimulate, and trend to enhancing the amplitude of P50.