/manager/Index ${session.getAttribute("locale")} 5 Altered neurofilament protein expression in the lateral vestibular nucleus in Parkinson's disease /manager/Repository/uon:33924 Wed 23 Jan 2019 15:34:09 AEDT ]]> Perception of movement extent depends on the extent of previous movements /manager/Repository/uon:3787 Wed 11 Apr 2018 16:27:54 AEST ]]> Provocative motion causes fall in brain temperature and affects sleep in rats /manager/Repository/uon:21280 Wed 11 Apr 2018 15:21:40 AEST ]]> The combined effect of muscle contraction history and motor commands on human position sense /manager/Repository/uon:7755 Sat 24 Mar 2018 08:41:49 AEDT ]]> Modulation of muscle sympathetic bursts by sinusoidal galvanic vestibular stimulation in human subjects /manager/Repository/uon:1063 Sat 24 Mar 2018 08:32:12 AEDT ]]> Absence of short-term vestibular modulation of muscle sympathetic outflow, assessed by brief galvanic vestibular stimulation in awake human subjects /manager/Repository/uon:2491 Sat 24 Mar 2018 08:27:44 AEDT ]]> Potassium accumulation between type I hair cells and calyx terminals in mouse crista /manager/Repository/uon:12449 40 mV shift of the K⁺ equilibrium potential and a rise in effective K⁺ concentration (>50 mM) in the intercellular space. Together these data suggest K⁺ accumulation in the intercellular space accounts for the different responses in isolated and embedded type I hair cells. To test this notion, we exposed the preparation to hyperosmotic solutions to enlarge the intercellular space. As predicted, the K⁺ accumulation effects were reduced; however, a fit of our data with a classic diffusion model suggested K⁺ permeability, rather than the intercellular space, had been altered by the hyperosmotic change. These results support the notion that under depolarizing conditions Substantial K⁺ accumulation occurs in the space between type I hair cells and calyx. The extent of K⁺ accumulation during normal synaptic transmission, however, remains to be determined.]]> Sat 24 Mar 2018 08:17:49 AEDT ]]> The vestibular system does not modulate fusimotor drive to muscle spindles in contracting leg muscles of seated subjects /manager/Repository/uon:20053 Sat 24 Mar 2018 08:00:04 AEDT ]]> Neck proprioceptors contribute to the modulation of muscle sympathetic nerve activity to the lower limbs of humans /manager/Repository/uon:20263 Sat 24 Mar 2018 07:59:56 AEDT ]]> Vestibular inputs do not influence the fusimotor system in relaxed muscles of the human leg /manager/Repository/uon:5800 Sat 24 Mar 2018 07:44:55 AEDT ]]>