Sensory regulation of spontaneous limb movements in the midstage embryonic chick

It is becoming increasingly apparent that somatosensation plays an important role in regulating prenatal movement and developmental plasticity. Numerous studies performed on embryonic chicks and perinatal rats are beginning to implicate proprioception to be particularly important in modulating motility very soon after afferent connections are made in the spinal cord. In this report, we demonstrate new approaches in the chick embryo to explore the role of sensation in modulating embryonic movement. Force recordings from the legs of chick embryos on E9 and E11, during spontaneous motility, demonstrate changes in sensory regulation consistent with the concept that sensory regulation is functioning one day after sensory synapse formation and that the complexity of this regulation increases by E11. Additionally, we present new video data showing activation of embryonic motility on E5 and E9 in embryos expressing channelrhodopsin in the spinal cord as a novel way to approach the issues of sensorimotor development. © 2015 Wiley Periodicals, Inc. Dev Psychobiol 57: 385–396, 2015.