Results 251 to 260 of about 128,308 (293)
Some of the next articles are maybe not open access.
2012
There are many excellent reviews on the mammalian vestibular system, however, none have focused primarily on mice. And yet now is a golden age for studies on the mouse vestibular system, evidenced by the burgeoning literature that ranges from molecular development of vestibular peripheral organs to central processing of vestibular-mediated behavior. As
Lim, Rebecca, Brichta, Alan M.
+4 more sources
There are many excellent reviews on the mammalian vestibular system, however, none have focused primarily on mice. And yet now is a golden age for studies on the mouse vestibular system, evidenced by the burgeoning literature that ranges from molecular development of vestibular peripheral organs to central processing of vestibular-mediated behavior. As
Lim, Rebecca, Brichta, Alan M.
+4 more sources
Towards a Neuromorphic Vestibular System
IEEE Transactions on Biomedical Circuits and Systems, 2014The vestibular system plays a crucial role in the sense of balance and spatial orientation in mammals. It is a sensory system that detects both rotational and translational motion of the head, via its semicircular canals and otoliths respectively. In this work, we propose a real-time hardware model of an artificial vestibular system, implemented using ...
Federico Corradi +5 more
openaire +5 more sources
2001
Abstract The vestibular nuclei receive a multiplicity of signals originating in the vestibular endorgans. Thousands of axons of primary vestibular neurons enter each side of the brain stem to innervate second-order neurons in four anatomically distinctive groups, located on the floor of the fourth ventricle.
R W, Baloh, V, Honrubia
openaire +2 more sources
Abstract The vestibular nuclei receive a multiplicity of signals originating in the vestibular endorgans. Thousands of axons of primary vestibular neurons enter each side of the brain stem to innervate second-order neurons in four anatomically distinctive groups, located on the floor of the fourth ventricle.
R W, Baloh, V, Honrubia
openaire +2 more sources
The Peripheral Vestibular System
2001Abstract The temporal bone contributes to the base and lateral wall of the skull and forms part of the middle and posterior fossae.1,2 It is divided into four parts: the squamous, tympanic, petrous, and mastoid areas. The squamous portion forms part of the lateral bony wall of the middle cranial fossa. The tympanic portion, the smallest,
R W, Baloh, V, Honrubia
openaire +2 more sources
1996
Five Sensory Organs in the Vestibular Apparatus of the Inner Ear. The vestibular sensory organs enable humans to walk upright. The five most important end organs for spatial orientation and motion sensation are located in the labyrinth of the inner ear (Fig. 34.1). These are the vestibular organs.
H.-P. Zenner, A. W. Gummer
openaire +1 more source
Five Sensory Organs in the Vestibular Apparatus of the Inner Ear. The vestibular sensory organs enable humans to walk upright. The five most important end organs for spatial orientation and motion sensation are located in the labyrinth of the inner ear (Fig. 34.1). These are the vestibular organs.
H.-P. Zenner, A. W. Gummer
openaire +1 more source
Brain and other central nervous system tumor statistics, 2021
Ca-A Cancer Journal for Clinicians, 2021Kimberly D Miller +2 more
exaly