Central pattern generators (CPGs) are circuits that generate organized and repetitive motor patterns, such as those underlying feeding, locomotion and respiration. We summarize recent work on invertebrate CPGs which has provided new insights into how rhythmic motor patterns are produced and how they are controlled by higher-order command and modulatory interneurons
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
Central pattern generators (CPGs) are circuits that generate organized and repetitive motor patterns...
Central pattern generators (CPGs) are neural circuits that based on their connectivity can generate ...
AbstractCentral pattern generators are neuronal circuits that when activated can produce rhythmic mo...
AbstractCentral pattern generators (CPGs) are localized neuronal networks that have the ability to p...
The neuronal networks that generate locomotion are well understood in swimming animals such as the l...
This article provides a perspective on major innovations over the past century in research on the sp...
The networks of neurones in the spinal cord which control vertebrate locomotion, commonly called cen...
The problem of controlling locomotion is an area in which neuroscience and robotics can fruitfully i...
Central pattern generators (CPGs) have traditionally been modeled as sets of coupled bistable oscill...
My thesis aimed to elucidate several aspects of motor circuit regulation and its impact on movement....
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
Ambulation or walking is one of the main gaits of locomotion. In terrestrial animals, it may be def...
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
Central pattern generators (CPGs) are circuits that generate organized and repetitive motor patterns...
Central pattern generators (CPGs) are neural circuits that based on their connectivity can generate ...
AbstractCentral pattern generators are neuronal circuits that when activated can produce rhythmic mo...
AbstractCentral pattern generators (CPGs) are localized neuronal networks that have the ability to p...
The neuronal networks that generate locomotion are well understood in swimming animals such as the l...
This article provides a perspective on major innovations over the past century in research on the sp...
The networks of neurones in the spinal cord which control vertebrate locomotion, commonly called cen...
The problem of controlling locomotion is an area in which neuroscience and robotics can fruitfully i...
Central pattern generators (CPGs) have traditionally been modeled as sets of coupled bistable oscill...
My thesis aimed to elucidate several aspects of motor circuit regulation and its impact on movement....
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
Ambulation or walking is one of the main gaits of locomotion. In terrestrial animals, it may be def...
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
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