A model for self-organization of sensorimotor function: spinal interneuronal integration
Jonas M. D. Enander, Gerald E. Loeb, Henrik Jörntell
Abstract
We present a model of a self-organizing early spinal cord circuitry, which is attached to a biologically realistic sensorized musculoskeletal system. Without any a priori-defined connectivity or organization, learning induced by spontaneous, fetal-like motor activity results in the emergence of a well-functioning spinal interneuronal circuit whose connectivity patterns resemble in many respects those observed in the adult mammalian spinal cord. Hence, our result questions the importance of genetically controlled wiring for spinal cord function.
Topics & Concepts
NeurosciencePsychologyMotor Control and AdaptationAction Observation and SynchronizationHemispheric Asymmetry in Neuroscience