All Relations between asymmetrical (pato 0000616) and mesencephalon

Reference Sentence Publish Date Extraction Date Species
Joshua T Gamse, Yung-Shu Kuan, Michelle Macurak, Christian Br\\xc3\\xb6samle, Bernard Thisse, Christine Thisse, Marnie E Halper. Directional asymmetry of the zebrafish epithalamus guides dorsoventral innervation of the midbrain target. Development (Cambridge, England) vol 132 issue 21 2005 16207761 molecular asymmetry extends to protein levels in habenular efferents, providing additional evidence that left and right axons terminate within different dorsoventral regions of the midbrain target. 2005-12-29 2022-01-12 Not clear
Hugo D Critchley, Peter Taggart, Peter M Sutton, Diana R Holdright, Velislav Batchvarov, Katerina Hnatkova, Marek Malik, Raymond J Dola. Mental stress and sudden cardiac death: asymmetric midbrain activity as a linking mechanism. Brain : a journal of neurology vol 128 issue Pt 1 2005 15496434 mental stress and sudden cardiac death: asymmetric midbrain activity as a linking mechanism. 2005-01-28 2022-01-12 Not clear
Hugo D Critchley, Peter Taggart, Peter M Sutton, Diana R Holdright, Velislav Batchvarov, Katerina Hnatkova, Marek Malik, Raymond J Dola. Mental stress and sudden cardiac death: asymmetric midbrain activity as a linking mechanism. Brain : a journal of neurology vol 128 issue Pt 1 2005 15496434 across the patient group, we observed a robust positive relationship between right-lateralized asymmetry in midbrain activity and proarrhythmic abnormalities of cardiac repolarization (apparent in two independent ecg measures) during stress. 2005-01-28 2022-01-12 Not clear
Martina Manns, Onur G\\xc3\\xbcnt\\xc3\\xbcrk\\xc3\\xbc. Light experience induces differential asymmetry pattern of GABA- and parvalbumin-positive cells in the pigeon's visual midbrain. Journal of chemical neuroanatomy vol 25 issue 4 2003 12842270 light experience induces differential asymmetry pattern of gaba- and parvalbumin-positive cells in the pigeon's visual midbrain. 2003-09-03 2022-01-11 Not clear
Martina Manns, Onur G\\xc3\\xbcnt\\xc3\\xbcrk\\xc3\\xbc. Light experience induces differential asymmetry pattern of GABA- and parvalbumin-positive cells in the pigeon's visual midbrain. Journal of chemical neuroanatomy vol 25 issue 4 2003 12842270 this study represents an attempt to test the hypothesis that embryonic light asymmetry induces different, cell-type-specific effects in the left and the right optic midbrain. 2003-09-03 2022-01-11 Not clear
I A Moroz, H Rajabi, D Rodaros, J Stewar. Effects of sex and hormonal status on astrocytic basic fibroblast growth factor-2 and tyrosine hydroxylase immunoreactivity after medial forebrain bundle 6-hydroxydopamine lesions of the midbrain dopamine neurons. Neuroscience vol 118 issue 2 2003 12699782 in groups killed 2 and 5 weeks after the lesion, the amount of behavioral asymmetry correlated with the percent loss of th-ir cells and with the percent increase in fgf-2-ir cells in the midbrain. 2003-06-16 2022-01-11 Not clear
M C Morrone, J Atkinson, G Cioni, O J Braddick, A Fiorentin. Developmental changes in optokinetic mechanisms in the absence of unilateral cortical control. Neuroreport vol 10 issue 13 1999 10511430 animal models suggest that the asymmetry of monocular optokinetic nystagmus (okn) in young infants can be explained by a direct pathway from retina to the midbrain nucleus of the optic tract. 1999-11-02 2022-01-10 Not clear
O Braddic. Where is the naso-temporal asymmetry? Motion processing. Current biology : CB vol 6 issue 3 1997 8805231 both midbrain and cortical origins for this asymmetry have been proposed, but there is no sign of it in the main motion-processing area of visual cortex. 1997-02-18 2022-01-10 Not clear
G PEPEU, P MANTEGAZZIN. MIDBRAIN HEMISECTION: EFFECT ON CORTICAL ACETYLCHOLINE IN THE CAT. Science (New York, N.Y.) vol 145 issue 3636 1996 14172626 a midbrain hemisection in a midpontine pretrigeminal preparation of the cat causes an asymmetry in the electroencephalogram with a marked increase in the acetylcholine content of the cortex from the synchronized hemisphere. 1996-12-01 2022-01-12 Not clear
Y Smith, A Charara, A Paren. Synaptic innervation of midbrain dopaminergic neurons by glutamate-enriched terminals in the squirrel monkey. The Journal of comparative neurology vol 364 issue 2 1996 8788247 on the basis of their ultrastructural features, three types (so-called types i, ii, and iii) of glutamate-enriched terminals were found to form asymmetric synapses with dendrites and perikarya of midbrain dopaminergic neurons. 1996-10-24 2022-01-10 Not clear
N S Blagoveshchenskaia, D N Kapitano. [Vestibulocochlear syndrome in lesions of the midbrain]. Vestnik otorinolaringologii vol issue 3 1995 7846820 midbrain affection can be evidenced by pronounced central cochleovestibular syndrome which presents with converging spontaneous nystagmus, elements of monocular nystagmus, early impairment of optokinetic nystagmus in all the directions, bilateral neurosensory hypoacusis, a dramatic decrease of speech intelligibility in several sound sources, disturbed binaural hearing in normal or symmetrically reduced hearing, the absence of sound lateralization in weber test under acute hearing asymmetry or unilateral deafness. 1995-03-06 2022-01-10 Not clear
S Gim\\xc3\\xa9nez-Rold\\xc3\\xa1n, D Mateo, C Benito, F Grandas, Y P\\xc3\\xa9rez-Gilaber. Progressive supranuclear palsy and corticobasal ganglionic degeneration: differentiation by clinical features and neuroimaging techniques. Journal of neural transmission. Supplementum vol 42 issue 1994 7964699 ct-scans and mri were helpful in supporting clinically-based diagnoses made at presentation in that the vast majority of the psp patients exhibited various degrees of midbrain atrophy and 50 percent of the cbgd patients exhibited asymmetric pericentral cortical atrophy. 1994-12-22 2022-01-10 Not clear
J S Yeomans, B A Pollar. Amygdala efferents mediating electrically evoked startle-like responses and fear potentiation of acoustic startle. Behavioral neuroscience vol 107 issue 4 1993 8397864 asymmetric collision effects between vaf and midbrain suggest that strong synapses between these sites mediate the response, with a transmission time of 1 ms. no collision was observed between contralateral sites. 1993-11-17 2022-01-10 Not clear
M Inagaki, T Koeda, K Takeshit. Prognosis and MRI after ischemic stroke of the basal ganglia. Pediatric neurology vol 8 issue 2 1992 1580952 mild to moderate asymmetric atrophy of the midbrain on the side ipsilateral to the stroke lesion was observed in 8 of 9 patients. 1992-06-18 2022-01-10 Not clear
R Sandy. A case of Tourette's syndrome with midbrain involvement. The International journal of neuroscience vol 43 issue 3-4 1989 3243674 while the nature of this patient's radiological abnormalities is not clear, our findings of asymmetric cerebral peduncles associated with ts may support a role for the midbrain in the pathophysiology of ts. 1989-05-31 2022-01-10 Not clear
R Kanayama, I Kato, T Nakamura, Y Koik. The fast-phase velocity of optokinetic nystagmus in central nervous system disorders. Acta oto-laryngologica vol 104 issue 5-6 1988 3434259 the directional asymmetry of velocity(p) toward the lesion side indicated that the velocity(p) toward the intact side was significantly reduced as compared with that toward the lesion side in patients with lesions in the thalamus or midbrain, whereas in patients with lesions in the pons, the velocity(p) toward the lesion side had decreased significantly as compared with that toward the intact side. 1988-02-29 2022-01-10 Not clear
E Mugnaini, L Male. Cytology and immunocytochemistry of the nucleus extrolateralis anterior of the mormyrid brain: possible role of GABAergic synapses in temporal analysis. Anatomy and embryology vol 176 issue 3 1987 3307524 knollenorgan afferents terminate with mixed synapses (gap junctions and asymmetric chemical synapses) on neurons of the nucleus of the lateral line lobe (nlll), which in turn projects to a midbrain nucleus--the nucleus extrolateralis anterior (ela). 1987-10-22 2022-01-10 Not clear
J Biller, J J Sand, J J Corbett, H P Adams, V Dun. Syndrome of the paramedian thalamic arteries: clinical and neuroimaging correlation. Journal of clinical neuro-ophthalmology vol 5 issue 4 1986 2934424 magnetic resonance imaging showed asymmetric, paramedian thalamic and midbrain lesions. 1986-02-17 2022-01-10 Not clear
T A Cox, C P Drewe. Contraction anisocoria resulting from half-field illumination. American journal of ophthalmology vol 97 issue 5 1984 6720835 our findings imply an asymmetric decussation of pupillomotor pathways in the midbrain in humans, as well as greater sensitivity of the nasal retina. 1984-06-18 2022-01-10 Not clear
P Slate. Circling produced by serotonin and dopamine agonists in raphe lesioned rats: a serotonin model. Pharmacology, biochemistry, and behavior vol 13 issue 6 1981 7193875 the serotonin (5-ht) receptor agonists quipazine and 5-methoxy-n,n-dimethyltryptamine caused slow, contralateral circling, which was not dose-related, when given to rats with an asymmetric electrolytic lesion of the midbrain medial raphe nucleus. 1981-05-26 2022-01-10 Not clear
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