Hippocampal theta activity and behavioral sequences in a reward-directed approach locomotor task
Autor: | Sinnamon Hm |
---|---|
Rok vydání: | 2005 |
Předmět: |
Male
Neurons Motivation Behavior Animal Theta rhythm Cognitive Neuroscience Theta activity Action Potentials Motor Activity Neuropsychological Tests Hippocampal formation Recording system Hippocampus Waiting period Rats Rats Sprague-Dawley Cognition Rhythm Amplitude Reward Animals Theta Rhythm Psychology Neuroscience Psychomotor Performance |
Zdroj: | Hippocampus. 15:518-534 |
ISSN: | 1098-1063 1050-9631 |
DOI: | 10.1002/hipo.20083 |
Popis: | Hippocampal rhythmic slow wave activity (theta) has been implicated in the processing of stimuli associated with movement. This study determined whether the theta rhythm showed phase relationships or changes in amplitude and frequency with the onset of stimuli and behavioral sequences in a skilled locomotor approach task. Rats with bipolar electrodes spanning CA1 approached a stall, turned to enter it, approached and depressed a treadle, waited 1.35 s, and approached a milk reward located forward either to the right or to the left. Auditory cues indicated the location of the reward during the waiting period and at the reward onset. A video capture system (20-ms sampling) was synchron- ized to the hippocampal recording system (10-ms sampling). Behavioral events identified by motion analysis were used to generate averages of hippocampal slow wave activity, theta peak amplitudes, and intervals between peaks. Theta activity at 8-10 Hz was almost continuous during the behavioral sequences. Phase relations with stimuli or movement onsets occurred infrequently and were not consistent across the four sub- jects. Theta peak amplitude and frequency decreased as the rat slowed locomotion in the stall and reached the treadle. Onset of locomotion directed to a reward location occurred on a positive peak of averaged theta activity. When locomotion had short latencies, increases in theta frequency appeared after the onset but, when it had longer latencies, fre- quency increases appeared 200 ms before onset. The results indicate that the execution of instrumental movement modulates both theta amplitude and frequency, and that the preparation for locomotion modulates theta frequency. V C 2005 Wiley-Liss, Inc. |
Databáze: | OpenAIRE |
Externí odkaz: |