1999
DOI: 10.1097/00005537-199901000-00008
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Prognosis in Bilateral Vestibular Hypofunction

Abstract: Poor rehabilitation results may be attributable to increased severity of vestibular insult, progressive peripheral or central vestibular dysfunction, and multiple medical problems.

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Cited by 106 publications
(109 citation statements)
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“…Loss of input from both vestibular labyrinths can cause chronic disequilibrium, postural instability, and decreased visual acuity due to illusory movement of the world during head motion (Grunbauer et al 1998;Minor 1998;Gillespie and Minor 1999). Bilateral loss of vestibular sensation is caused by several ear disorders, including ototoxic drug exposure, ischemia, infection, genetic abnormality, and trauma.…”
Section: Introductionmentioning
confidence: 99%
“…Loss of input from both vestibular labyrinths can cause chronic disequilibrium, postural instability, and decreased visual acuity due to illusory movement of the world during head motion (Grunbauer et al 1998;Minor 1998;Gillespie and Minor 1999). Bilateral loss of vestibular sensation is caused by several ear disorders, including ototoxic drug exposure, ischemia, infection, genetic abnormality, and trauma.…”
Section: Introductionmentioning
confidence: 99%
“…Because input from the vestibular labyrinths normally mediates perception of movement and reflexes that stabilize posture and visual gaze, loss of this input causes chronic disequilibrium, postural instability, and visual blur due to illusory movement of the world during head motion (Grunbauer et al 1998;Minor 1998;Gillespie and Minor 1999). A multichannel neuro-electronic prosthesis that senses rotation of the head in three dimensions and delivers corresponding stimuli to the ampullary branches of the vestibular nerve should restore sensation of head rotation, which in turn should help to stabilize gaze and at least partially restore perception of head movement.…”
Section: Introductionmentioning
confidence: 99%
“…In normal humans subjected to passive sinusoidal or transient head rotation in light or darkness over the range of head movements typical of walking, jogging or even vigorous head shaking (>300°/s and >5000°/s 2 over ~0. [5][6][7][8][9][10][11][12][13][14][15][16], the AVOR gain (conventionally defined as the absolute value of the ratio of eye and head velocity about the axis of head rotation for sinusoids [or of acceleration for transients]) is near 1 and its latency is only 7-9 ms. [9;10;2; 11]. The gain of the AVOR in darkness falls as head rotation frequency decreases below ~0.1 Hz, where vision-dependent tracking mechanisms dominate.…”
Section: Introductionmentioning
confidence: 99%