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Query: UNIPROT:P50583 (
asymmetrical
)
12,197
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Characteristics of human vertical optokinetic
nystagmus
(VOKN) and afternystagmus (VOKAN) were examined by electro-oculography in 18 normal human subjects by means of the analysis of slow phase velocity (SPV) and area under the regression curve of the VOKAN decay. Under normal gravity, subjects were tested in upright and left ear down (90 degrees roll) positions, respectively, using a hemisphere onto which stripes were projected at a velocity of 40 degrees/s in left, right, up and down directions. Analysis of the VOKN and VOKAN revealed a significant asymmetry of vertical eye movements in the subjects' sagittal plane, ie, stronger upward SPV than downward in both VOKN and VOKAN decay. This asymmetry became even more prominent when the head was in the 90 degrees roll position. It is postulated that the asymmetry of VOKN and VOKAN in humans, as in animals, is due to the
asymmetrical
storage capability of the vertical velocity storage mechanism which mainly contributes to upward eye movements. In addition, it is postulated that the vertical storage mechanism is modified by the action of gravity on the otolith organs. However, only two out of our 18 subjects demonstrated cross-coupling, as reported in animals, from the horizontal to the vertical mode of storage when the head was tilted away from the spatial vertical.
...
PMID:Human vertical optokinetic nystagmus and after-response, and their dependence upon head orientation with respect to gravity. 818 62
A visually unresponsive infant had a normal ophthalmological examination. Eye-movement studies using electro-oculography revealed
asymmetrical
binocular smooth pursuit, binocular optokinetic
nystagmus
and vestibulo-ocular reflex. Electrophysiological testing showed markedly
asymmetrical
occipital flash and pattern visual evoked potentials. Both investigations suggested a posterior right-hemispheric problem, which was confirmed with cranial ultrasound. This case study illustrates the usefulness of non-invasive techniques in neuro-ophthalmological investigations of young children.
...
PMID:Eye movement and electrophysiological findings in an infant with hemispheric pathology. 849 24
The vestibulo-ocular reflex (VOR) and spatial orientation perceptions were recorded in 15 subjects during 3 Gz centrifuge runs. These data were obtained to study two issues: (1) to gain insight into reports of
asymmetrical
disorientation and disturbance during acceleration and deceleration of centrifuge runs like those used to train pilots on the procedures to counteract G-induced loss of consciousness (G-LOC); (2) to study the effects of sustained vertical linear acceleration on the vestibular system. The centrifuge angular velocity profile consisted of a 19 s angular acceleration to 3 Gz that was sustained for 5 min during a period of constant angular velocity, and a 19 s deceleration to 1 Gz. The runs were repeated three times with the subject facing the motion and three times with the subject's back to the motion. The VOR and spatial orientation perceptions from the eight subjects who completed all six runs were analyzed. The total VOR response during acceleration and deceleration was composed of interacting angular (AVOR) and linear components (LVOR). Asymmetries in pitch orientation perception between centrifuge acceleration and decleration were not matched by asymmetries in the total VOR slow phase velocity. During the constant velocity high-G phase of the run, sustained up-beating LVOR (Lz
nystagmus
) was present in 14 of the 15 subjects. Significant individual differences in Lz
nystagmus
were found, but the maximum Lz response in our 15 subjects was probably of insufficient magnitude to degrade visual scan of cockpit instruments. Mean magnitudes ranged from 0 to 10 deg/s at 90 s from onset of centrifuge run.
...
PMID:Vestibulo-ocular response of human subjects seated in a pivoting support system during 3 Gz centrifuge stimulation. 852 75
In adult guinea pigs, unilateral labyrinthine lesions were inflicted by chloroform injections into the middle ear. Immunoreactivity for S100 protein (S100) in the vestibular nuclei was studied during compensation of lesion-induced postural asymmetry symptoms, i.e.,
nystagmus
,
asymmetrical
head position. 1 h after unilateral labyrinthectomy, increased levels of astroglial S100 immunoreactivity were found in the superior vestibular nucleus and in the medial/lateral vestibular nucleus border region on the side contralateral to the deafferentation. Bilaterally, the astrocytic S100 immunoreaction increased in the lateral vestibular nuclei around Deiters neurons. Maximal expression of S100 was noted 3 h after the lesion. Subsequently, it diminished. Our data reveal that transsynaptically altered neuronal activity induces an astrocytic reaction which provides increased levels of S100 to the local neuropil. Calcium and zinc binding S100 proteins may play a functional role for the neuroplasticity during vestibular compensation.
...
PMID:Expression of S100 protein in the vestibular nuclei during compensation of unilateral labyrinthectomy symptoms. 854 26
A female alcoholic presented with Wernicke's encephalopathy subsequent to administration of diazepam and glucose (without thiamine) for treatment of withdrawal seizures.
Nystagmus
and cerebellar ataxia quickly resolved when administered thiamine, although severe global amnesia consistent with Korsakoff's syndrome persisted. Magnetic resonance imaging (MRI) revealed infarction of the right temporal lobe with hippocampal atrophy, but no lesions of thalamus or atrophy of mammillary bodies. Positron emission tomography (PET) confirmed decreased cerebral metabolic rates for glucose (CMRglu) in the right temporal lobe corresponding to MRI findings, but also significant metabolic asymmetry of dorsal thalamus, i.e. reduced CMRglu in left versus right. This patient is unique in that neuroradiological findings revealed intact mammillary bodies and suggest
asymmetrical
dysfunctions (structural right temporal and functional left diencephalic) to produce her profound amnesia.
...
PMID:Severe global amnesia presenting as Wernicke-Korsakoff syndrome but resulting from atypical lesions. 868 98
Clinical and MRI investigations were carried out on 27 patients with acquired pendular
nystagmus
in an attempt to delineate possible sites of lesions responsible for pendular
nystagmus
and mechanisms underlying the frequent ocular disconjugacy of this
nystagmus
. The aetiologies were multiple sclerosis (n = 21), brainstem stroke (n = 3) and other neurological conditions. In at least 59% of the patients, pendular
nystagmus
appeared > 1 year after the first symptom of the disease. Patients MRIs were characterized by multiple areas of abnormal signal and were analysed statistically to identify areas where lesions overlapped significantly between patients. Statistically significant overlap occurred in areas containing the red nucleus, the central tegmental tract, the medial vestibular nucleus and the inferior olive. Patients with horizontal pendular
nystagmus
showed predominantly pontine lesions whereas patients with torsional pendular
nystagmus
showed predominantly medullary involvement. The
nystagmus
was conjugate in 15 patients and disconjugate in amplitude or direction in 12. Internuclear ophthalmoplegia or
asymmetrical
visual acuity occurred in similar proportions in both groups. Patients with conjugate pendular
nystagmus
had a higher incidence of symmetrical, "mirror image' lesions on MRI than patients with disconjugate
nystagmus
. The abundance of abnormal MRI signals in our sample suggests that large or multiple structural lesions may be required to elicit pendular
nystagmus
, predominantly in the pons but also in the midbrain and medulla. The involvement of structures projecting to the inferior olive supports the hypothesis that oscillatory properties of olivary neurons causes the rhythm of pendular
nystagmus
. The delay observed between the onset of the underlying disease and the pendular
nystagmus
supports a mechanism operating via neural deafferentation. Disconjugancies in pendular
nystagmus
cannot be explained on the basis of the associated internuclear ophthalmoplegias nor on the basis of
asymmetrical
visual acuity. The association between symmetrical MRI lesions and conjugate
nystagmus
suggests that
asymmetrical
damage to brainstem structures concerned with binocular alignment may underlie disconjugate pendular
nystagmus
.
...
PMID:Clinical and MRI correlates in 27 patients with acquired pendular nystagmus. 880 Sep 42
In the opossum the symmetrical binocular horizontal optokinetic
nystagmus
gives way to an
asymmetrical
monocular reflex: the nasotemporal (NT) stimulation yielding lower gain than the temporonasal (TN). In adults, monocularly enucleated at postnatal days 21-25 (pnd21-25), the gain of NT responses is markedly increased, approaching that of TN. Severe cell loss was detected in the nucleus of the optic tract (NOT) on the deafferented side in early monoenucleated specimens. In normal animals retinal afferents to the NOT are all crossed, while in animals enucleated at pnd21-25 sparse uncrossed retinal elements were observed. Although this abnormal projection might influence the increased NT response in this subgroup, it is argued that the increased symmetry in monoenucleated opossums may be the result of changes mediated by the commissural connection between both NOTs.
...
PMID:The horizontal optokinetic reflex of the opossum (Didelphis marsupialis aurita): physiological and anatomical studies in normal and early monoenucleated specimens. 919 38
The frog horizontal monocular optokinetic
nystagmus
(H-OKN) is
asymmetrical
, the reflex being evoked by a temporal-nasal (T-N) component, but not by a nasal-temporal (N-T) component. Coil recordings showed that, in adult animals, 8 days of monocular deprivation (by unilateral eyelid suture) provoked the appearance of a N-T component, the H-OKN becoming symmetrical, reacting for both directions of stimulation. This delay was shortened to 2 days following two successive unilateral pretectal administrations of NMDA or of LY 285 265, an NMDA agonist, the first 2 days of eyelid suture. The same results were obtained when chronic microinjections of NMDA or LY 285 265 were achieved, the frogs being maintained in total darkness during the week of eyelid suture. These data indicate that the plasticity phenomenon evidenced in the monocular frog H-OKN depends on the activation of the NMDA receptors of one pretectum. This activation was obtained either by a monocular light stimulation of 8 days duration, or by unilateral administration of drugs activating the NMDA glutamatergic pretectal system. In this last case, the light stimulation was no longer necessary.
...
PMID:Involvement of NMDA in a plasticity phenomenon observed in the adult frog monocular optokinetic nystagmus. 920 12
Three normal human subjects were oscillated about their naso-occipital axis in a supine position at 0.4 Hz and 0.1 Hz, both in darkness and in the light with a structured fixation target. The same subjects were oscillated in roll about an upright position, at the same frequencies, in darkness; and also about axes directed 20 degrees and 40 degrees to the left and to the right of the midsagittal plane, at 0.4 Hz, in darkness. Three-dimensional binocular eye movements were recorded using video-oculography. All stimuli induced a predominantly torsional
nystagmus
with small disconjugate head-vertical (skew) and conjugate head-horizontal components. For roll oscillation, the torsional slow phase velocity gain was higher in the light and generally increased with the stimulation frequency. In darkness, only one subject had significantly higher torsional gains in the upright compared to the supine position (12% difference), suggesting that the otolith contribution to the roll response is minimal at the frequencies tested. The slow phase velocity gain of the skew increased with fixation in two subjects. but decreased in the third subject; these changes were related to changes in eye vergence. In the upright position, with oblique axes of rotation, the head-vertical eye movements were
asymmetrical
, with the outermost eye executing a larger amplitude movement. The disconjugate head-vertical eye movements observed can be explained by the pattern of vertical semicircular canal stimulation and their connections to the extraocular muscles. In humans, skewing of the eyes may compensate for the eccentricity of the foveae which lie in the temporal retina and undergo vertical translations in opposite directions when the eyes tort.
...
PMID:Otolith and semicircular canal contributions to the human binocular response to roll oscillation. 958 83
Neuropsychiatric lupus includes extremely diverse clinical manifestations, ranging from mild cognitive dysfunction to a severe, life-threatening presentation. We report a 28-year-old patient with systemic lupus erythematosus who had persistent fever for 3 months, and developed within a few hours motor and sensory aphasia, rotator
nystagmus
with deviation of the eyes, and severe nuchal rigidity. An extensive series of imaging and laboratory tests were interpreted as normal, except for an elevated opening pressure at lumbar puncture, cerebrospinal fluid inflammatory findings, and
asymmetrical
cortical perfusion on single-photon emission computed tomography. The patient received one course of high-dose intravenous immunoglobulin (IVIg) and within 5 days her condition returned to that of 3 months before admission. The mechanisms of injury, along with the management of cerebral lupus and the mechanisms of action of IVIg, are discussed.
...
PMID:Successful treatment of systemic lupus erythematosus cerebritis with intravenous immunoglobulin. 1035 27
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