Activity of Caudate Nucleus Neurons in a Visual Fixation Paradigm in Behaving Cats

Beside its motor functions, the caudate nucleus (CN), the main input structure of the basal ganglia, is also sensitive to various sensory modalities. The goal of the present study was to investigate the effects of visual stimulation on the CN by using a behaving, head-restrained, eye movement-contro...

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Veröffentlicht in:	PloS one 2015-11, Vol.10 (11), p.e0142526-e0142526
Hauptverfasser:	Nagypál, Tamás, Gombkötő, Péter, Barkóczi, Balázs, Benedek, György, Nagy, Attila
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Anesthesia Animals Antibiotics Basal ganglia Behavior, Animal - physiology Brain stimulation Cats Caudate nucleus Caudate Nucleus - cytology Caudate Nucleus - physiology Data processing Eye movements Fixation Fixation, Ocular - physiology Ganglia Information processing Localization Medicine Monkeys & apes Neurons Neurons - cytology Neurosciences Nuclei Optic flow Optic Flow - physiology Photic Stimulation Physiological aspects Physiology Stimulation Studies Surgery Visual effects Visual stimuli
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creator	Nagypál, Tamás Gombkötő, Péter Barkóczi, Balázs Benedek, György Nagy, Attila
description	Beside its motor functions, the caudate nucleus (CN), the main input structure of the basal ganglia, is also sensitive to various sensory modalities. The goal of the present study was to investigate the effects of visual stimulation on the CN by using a behaving, head-restrained, eye movement-controlled feline model developed recently for this purpose. Extracellular multielectrode recordings were made from the CN of two cats in a visual fixation paradigm applying static and dynamic stimuli. The recorded neurons were classified in three groups according to their electrophysiological properties: phasically active (PAN), tonically active (TAN) and high-firing (HFN) neurons. The response characteristics were investigated according to this classification. The PAN and TAN neurons were sensitive primarily to static stimuli, while the HFN neurons responded primarily to changes in the visual environment i.e. to optic flow and the offset of the stimuli. The HFNs were the most sensitive to visual stimulation; their responses were stronger than those of the PANs and TANs. The majority of the recorded units were insensitive to the direction of the optic flow, regardless of group, but a small number of direction-sensitive neurons were also found. Our results demonstrate that both the static and the dynamic components of the visual information are represented in the CN. Furthermore, these results provide the first piece of evidence on optic flow processing in the CN, which, in more general terms, indicates the possible role of this structure in dynamic visual information processing.
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The goal of the present study was to investigate the effects of visual stimulation on the CN by using a behaving, head-restrained, eye movement-controlled feline model developed recently for this purpose. Extracellular multielectrode recordings were made from the CN of two cats in a visual fixation paradigm applying static and dynamic stimuli. The recorded neurons were classified in three groups according to their electrophysiological properties: phasically active (PAN), tonically active (TAN) and high-firing (HFN) neurons. The response characteristics were investigated according to this classification. The PAN and TAN neurons were sensitive primarily to static stimuli, while the HFN neurons responded primarily to changes in the visual environment i.e. to optic flow and the offset of the stimuli. The HFNs were the most sensitive to visual stimulation; their responses were stronger than those of the PANs and TANs. The majority of the recorded units were insensitive to the direction of the optic flow, regardless of group, but a small number of direction-sensitive neurons were also found. Our results demonstrate that both the static and the dynamic components of the visual information are represented in the CN. 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subjects	Analysis Anesthesia Animals Antibiotics Basal ganglia Behavior, Animal - physiology Brain stimulation Cats Caudate nucleus Caudate Nucleus - cytology Caudate Nucleus - physiology Data processing Eye movements Fixation Fixation, Ocular - physiology Ganglia Information processing Localization Medicine Monkeys & apes Neurons Neurons - cytology Neurosciences Nuclei Optic flow Optic Flow - physiology Photic Stimulation Physiological aspects Physiology Stimulation Studies Surgery Visual effects Visual stimuli
title	Activity of Caudate Nucleus Neurons in a Visual Fixation Paradigm in Behaving Cats
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