Erwin Idoux

TL;DR: The experimental evidence is revisited, which demonstrates that drastic alterations of the central vestibular neurons’ intrinsic properties occur following UL, with a slow time course, more on par with the compensation of dynamic deficits than static ones.

TL;DR: The experiments reported here show that all PHN neurons (PHNn) show marked phasic behavior, which is highly oscillatory in approximately 25% of the population, and suggest that the PHNn have specific intrinsic properties that, in conjunction with network interconnections, enhance the persistent neural activity needed for their function.

TL;DR: It is demonstrated that suppression of sensory vestibular inputs during a ‘sensitive period’ around birth can generate the circling/waltzing behaviour, but that this behaviour is not due to persistent abnormalities of the membrane properties of central Vestibular neurons.

TL;DR: The main points discussed in this review are that the intrinsic membrane properties can be used to distinguish between two dominant types of neurons, the system remains plastic throughout the whole life of the animal, and the intracellular calcium concentration has a major effect on the intrinsic membranes properties of central vestibular neurons.