1.Effects of 24-hours sleep deprivation on central information processing. Examination using event-related potentials (P300).
TAKESHI KANEDA ; YOSHIAKI NISHIHIRA ; ARIHIRO HATTA ; MASAHIRO SHIMODA ; MASAKI FUMOTO ; TAKASHI TAKEMIYA
Japanese Journal of Physical Fitness and Sports Medicine 1999;48(4):477-483
The purpose of this study was to investigate the effect of the sleep deprivation for central information processing. Therefore we examined the changes in the amplitude and the latency of P300 event-related potentials (ERPs) before and after sleep deprivation in eight subjects. In addition to P300, we examined the power spectral changes of the EEG and the R-R intervals at rest before ERP measurements. The subjects performed an auditory target discrimination task and were instructed to keep mental count of each target stimulus. Then 2000 Hz tones (target) and 1000 Hz tones (nontarget) were randomly presented with probabilities of 0.2 and 0.8.
P300 latency at Fz, Cz, C3 and C4 was significantly prolonged after sleep deprivation (p<0.05) . P300 amplitude at Cz after sleep deprivation was significantly smaller than before sleep deprivation (p<0.05) . Alpha 1 power (8-10 Hz) at Cz on EEG was significantly decreased after sleep deprivation, but no other bands changed on EEG. The R-R interval was also significantly extended after sleep deprivation. We concluded that both central information processing and the autonomic nervous system may be influenced by sleep deprivation.
2.Feature of event-related potentials in developing children.
TAKESHI KANEDA ; YOSHIAKI NISHIHIRA ; ARIHIRO HATTA ; MASAKI FUMOTO ; MASAHIRO SHIMODA ; SIN-ICHIRO TOKITOH ; SACHIYO AKIYAMA
Japanese Journal of Physical Fitness and Sports Medicine 2000;49(2):307-314
We examined here, changes in event-related potentials (ERPs) in eighteen children from 7 to 12 years and twelve adults. In addition to ERPs, we examined changes of EMG-RT. Subjects performed an auditory target discrimination task, in which 1000 Hz tones (target) and 2000 Hz tones (standard) were randomly presented with probabilities of 0.2 and 0.8.
We found P300 as most consistent component of ERPs since childhood. P300 latency and EMG-RT in children was significantly prolonged than in adults (p<0.01) . P300 amplitude in children was significantly larger than in adults (p<0.05) . We concluded that both stimulus evaluation time and response selection time in children are more prolonged than that in adults, although ERPs is confirmed in children.
3.EVENT-RELATED POTENTIALS (ERPs) AND LONG-TERM PHYSICAL EXERCISE
SACHIYO AKIYAMA ; YOSHIAKI NISHIHIRA ; ARIHIRO HATTA ; MASAKI FUMOTO ; TAKESHI KANEDA ; SHINICHIROU TOKITOU ; MASAHIRO SHIMODA
Japanese Journal of Physical Fitness and Sports Medicine 2000;49(2):267-276
Electrophysiologic effects of physical exercise were investigated by comparing a training group and non-training group. ERPs were recorded by oddball paradigm using auditory stimuli as well as count and reaction tasks. EMG-RT was recorded during the reaction task. No reliable exercise effects on N100 amplitudes or latencies were observed. Concerning P300 amplitudes, no significant difference between the training group and non-training group was seen although P300 latencies of the training group were significantly shorter than those of the non-training group in the count task. Moreover, EMG-RT of the training group was significantly shorter than that of the non-training group.
These findings suggest that the long-term physical exercise improved the efficiency of informa-tion processing and superior cognitive function in the brain.
4.The mechanism of the latent reacyion time in the elderly men. Differance by the task completions.
SHIN-ICHIROU TOKITOU ; YOSHIAKI NISHIHIRA ; ARIHIRO HATTA ; SACHIYO AKIYAMA ; TOSHIAKI WASAKA ; TAKESHI KANEDA ; MASAKI FUMOTO
Japanese Journal of Physical Fitness and Sports Medicine 2001;50(3):303-312
The mechanism of the latent reaction time in task completion in elderly men was investigated by comparing the reaction time (RT), EMG-RT and motor time (MT) in young and elderly men. The motor performance was recorded as task completion through as a WS-RS, simple reaction or a choice reaction for each movement using a handgrip and switch.
In this study, we found that the RT and EMG-RT of elderly men in all movements of WS-RS and choice reaction tasks were significantly longer than those of young men, especially in the choice reaction tasks were striking. Moreover, the MT of elderly men in all tasks was significantly longer than those of young men.
These findings suggest that the latent RT and EMG-RT in a choice reaction task may be due to relayed information processing through as the discrimination and cognition functions in the brain, and that it may be also influenced by the mechanism of the latent reaction time of task completion in elderly men.
5.CHANGES IN SOMATOSENSORY INPUT FOLLOWING LOCAL MUSCLE FATIGUE.
KAZUO KUROIWA ; YOSHIAKI NISHIHIRA ; ARIHIRO HATTA ; TOSHIAKI WASAKA ; TAKESHI KANEDA ; SACHIYO AKIYAMA ; TETSUO KIDA ; MASANORI SAKAMOTO ; KEITA KAMIJO
Japanese Journal of Physical Fitness and Sports Medicine 2003;52(4):433-442
We studied whether exercise fatigue affects somatosensorv input using somatosensory evoked potential (SEP) . Sixteen subjects performed intermittent grip strength exercises with muscle fatigue while ignoring electrical stimulation given to an elbow. We induced SEP in the exercise task (during contraction) in every stage (first stage, middle stage and final stage) . In addition, we induced SEP in the exercise task during relaxation in the first stage and final stage. As a result, the early component amplitude of SEP decreased with the progress of exercise (manifestation of muscle fatigue) during contraction and relaxation. Our findings suggested that somatosensory input decreased with the manifestation of muscle fatigue. Somatosensory input is necessary for control of voluntary movement. Therefore, we speculate that these factors play a role in decreased performance of athletes competing in long-duration events.