Procedure for recording the simultaneous activity of single neurons distributed across cortical areas during sensory discrimination |
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Authors: | Hernández Adrián Nácher Verónica Luna Rogelio Alvarez Manuel Zainos Antonio Cordero Silvia Camarillo Liliana Vázquez Yuriria Lemus Luis Romo Ranulfo |
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Affiliation: | Instituto de Fisiología Celular, Universidad Nacional Autónoma de México, 04510 México D.F., Mexico. |
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Abstract: | We report a procedure for recording the simultaneous activity of single neurons distributed across five cortical areas in behaving monkeys. The procedure consists of a commercially available microdrive adapted to a commercially available neural data collection system. The critical advantage of this procedure is that, in each cortical area, a configuration of seven microelectrodes spaced 250-500 mum can be inserted transdurally and each can be moved independently in the z axis. For each microelectrode, the data collection system can record the activity of up to five neurons together with the local field potential (LFP). With this procedure, we normally monitor the simultaneous activity of 70-100 neurons while trained monkeys discriminate the difference in frequency between two vibrotactile stimuli. Approximately 20-60 of these neurons have response properties previously reported in this task. The neuronal recordings show good signal-to-noise ratio, are remarkably stable along a 1-day session, and allow testing several protocols. Microelectrodes are removed from the brain after a 1-day recording session, but are reinserted again the next day by using the same or different x-y microelectrode array configurations. The fact that microelectrodes can be moved in the z axis during the recording session and that the x-y configuration can be changed from day to day maximizes the probability of studying simultaneous interactions, both local and across distant cortical areas, between neurons associated with the different components of this task. |
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Keywords: | monkeys multiple microelectrodes neuronal ensembles temporal interactions brain circuits |
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