All Relations between asymmetrical (pato 0000616) and mesencephalon

Reference Sentence Publish Date Extraction Date Species
Gianmarco Maldarelli, Uwe Firzlaff, Lutz Kettler, Janie M Ondracek, Harald Luksc. Two types of auditory spatial receptive fields in different parts of the chicken's midbrain. The Journal of neuroscience : the official journal of the Society for Neuroscience vol issue 2022 35508384 little is known about how auditory space is represented in the midbrain of birds with generalist hearing, i.e., most of avian species lacking peripheral adaptations such as facial ruffs or asymmetric ears. 2022-05-04 2022-05-07 Not clear
Giovanni Rizzo, Stefano Zanigni, Roberto De Blasi, Daniela Grasso, Davide Martino, Rodolfo Savica, Giancarlo Logroscin. Brain MR Contribution to the Differential Diagnosis of Parkinsonian Syndromes: An Update. Parkinson's disease vol 2016 issue 2020 27774334 in this context, changes in pons, middle cerebellar peduncles, and cerebellum suggest the diagnosis of msa, in midbrain and superior cerebellar peduncles the diagnosis of psp, and in whole cerebral hemispheres (mainly in frontoparietal cortex with asymmetric distribution) the diagnosis of corticobasal syndrome. 2020-09-30 2022-01-13 Not clear
Keita Sakurai, Satoru Morimoto, Takuya Oguri, Hiroyuki Yuasa, Yuto Uchida, Kentaro Yamada, Masahiro Muto, Yufuko Saito, Ikuko Aiba, Masaki Takao, Shohei Inui, Keiko Toyoda, Asako Yamamoto, Hidetsuna Utsunomiya, Hiroshi Oba, Aya M Tokumaru, Motoo Nakagawa, Yoshio Hashizume, Mari Yoshid. Multifaceted structural magnetic resonance imaging findings in demented patients with pathologically confirmed TDP-43 proteinopathy. Neuroradiology vol 61 issue 11 2020 31520153 in addition to the well-known frontotemporal lobar atrophy, structural mri has revealed multifaceted imaging findings including asymmetric atrophy of the frontoparietal lobe and cerebral peduncle, midbrain atrophy, and localized or diffuse white matter t2 hyperintensity. 2020-04-08 2022-01-13 Not clear
Melina Rapacioli, Sara Fiszer de Plazas, Vladimir Flore. The developing optic tectum: An asymmetrically organized system and the need for a redefinition of the notion of sensitive period. International journal of developmental neuroscience : the official journal of the International Society for Developmental Neuroscience vol 73 issue 2020 30572015 the paper proposes that this assembling of temporally/spatially organized cell behaviors could be incorporated into a wider notion of patterning and that, given the asymmetric organization of the developing optic tectum, the notion of "sensitive period" does not capture the whole complexity of midbrain development and the pathogenesis of congenital disorders. 2020-01-06 2022-01-13 Not clear
Danielle Kamis, Lee Stratton, Mar\\xc3\\xada Calv\\xc3\\xb3, Eduardo Padilla, N\\xc3\\xa9stor Florenzano, Gonzalo Guerrero, Beatriz Molina Rangeon, Juan Molina, Gabriel A de Erausqui. Sex and laterality differences in parkinsonian impairment and transcranial ultrasound in never-treated schizophrenics and their first degree relatives in an Andean population. Schizophrenia research vol 164 issue 1-3 2016 25735637 we tested the hypothesis that loss of substantia nigra neurons in subjects at risk of schizophrenia (1), as reflected by midbrain hyperechogenicity (2) and parkinsonian motor impairment (3), is asymmetric and influenced by sex. 2016-03-28 2022-01-12 Not clear
Munenori Ono, Douglas L Olive. Asymmetric temporal interactions of sound-evoked excitatory and inhibitory inputs in the mouse auditory midbrain. The Journal of physiology vol 592 issue 16 2015 24951623 asymmetric temporal interactions of sound-evoked excitatory and inhibitory inputs in the mouse auditory midbrain. 2015-10-26 2022-01-12 Not clear
Nicholas Zalewski, Hugo Botha, Jennifer L Whitwell, Val Lowe, Dennis W Dickson, Keith A Joseph. FDG-PET in pathologically confirmed spontaneous 4R-tauopathy variants. Journal of neurology vol 261 issue 4 2015 24492888 the overall predominant imaging findings included bilateral caudate hypometabolism in nine cases, mild asymmetric thalamic hypometabolism in eight, midbrain hypometabolism in seven, and bilateral hypometabolism in the supplementary motor area in seven. 2015-02-02 2022-01-12 Not clear
Werner Poewe, Philipp Mahlknech. Combined assessment of midbrain hyperechogenicity, hyposmia and motor asymmetry improves diagnostic accuracy in early Parkinson's disease. Expert review of neurotherapeutics vol 12 issue 8 2013 23002935 combined assessment of midbrain hyperechogenicity, hyposmia and motor asymmetry improves diagnostic accuracy in early parkinson's disease. 2013-02-26 2022-01-12 Not clear
Werner Poewe, Philipp Mahlknech. Combined assessment of midbrain hyperechogenicity, hyposmia and motor asymmetry improves diagnostic accuracy in early Parkinson's disease. Expert review of neurotherapeutics vol 12 issue 8 2013 23002935 combining midbrain hyperechogenicity, hyposmia and motor asymmetry increased specificity and positive predictive value for diagnosis of pd up to 98% at the expense of sensitivity, whereas two features provided 91% sensitivity with 77% specificity. 2013-02-26 2022-01-12 Not clear
Han Jin Jang, Sook Young Sim, Jong Yun Lee, Ji Hwan Ban. Atypical metronidazole-induced encephalopathy in anaerobic brain abscess. Journal of Korean Neurosurgical Society vol 52 issue 3 2012 23115678 in addition, asymmetric lesions in midbrain, thalamus, putamen and cerebral subcortical white matter were noted. 2012-11-02 2022-01-12 Not clear
Aldo Villal\\xc3\\xb3n, Mauricio Sep\\xc3\\xbalveda, N\\xc3\\xa9stor Guerrero, Margarita M Meynard, Karina Palma, Miguel L Conch. Evolutionary plasticity of habenular asymmetry with a conserved efferent connectivity pattern. PloS one vol 7 issue 4 2012 22514727 in teleosts, habenular asymmetry has been associated with preferential innervation of left-right habenular efferents into dorso-ventral domains of the midbrain interpeduncular nucleus (ipn). 2012-08-30 2022-01-12 Not clear
Omar I J\\xc3\\xb3hannesson, Arni Gunnar Asgeirsson, Arni Kristj\\xc3\\xa1nsso. Saccade performance in the nasal and temporal hemifields. Experimental brain research vol 219 issue 1 2012 22453719 while this lack of asymmetry is surprising in light of previous findings of attentional asymmetries, it may reflect that cortical input to midbrain eye control centers mitigates any retinal and retinotectal asymmetry. 2012-08-29 2022-01-12 Not clear
K S Rommelfanger, D A Mitrano, Y Smith, D Weinshenke. Light and electron microscopic localization of alpha-1 adrenergic receptor immunoreactivity in the rat striatum and ventral midbrain. Neuroscience vol 158 issue 4 2009 19068224 unmyelinated axons and about 30-50% terminals forming asymmetric synapses contained the majority of presynaptic labeling in the striatum and midbrain, while in the midbrain a subset of terminals forming symmetric synapses also displayed immunoreactivity. 2009-05-20 2022-01-12 Not clear
Yung-Shu Kuan, Joshua T Gamse, Alexander M Schreiber, Marnie E Halper. Selective asymmetry in a conserved forebrain to midbrain projection. Journal of experimental zoology. Part B, Molecular and developmental evolution vol 308 issue 5 2007 17592620 selective asymmetry in a conserved forebrain to midbrain projection. 2007-12-27 2022-01-12 Not clear
Vincent Coulon, Aurore L'Honor\\xc3\\xa9, Jean-Fran\\xc3\\xa7ois Ouimette, Emilie Dumontier, Pepijn van den Munckhof, Jacques Droui. A muscle-specific promoter directs Pitx3 gene expression in skeletal muscle cells. The Journal of biological chemistry vol 282 issue 45 2007 17848564 the pitx homeobox transcription factor genes have been implicated in different developmental processes, including determination of hind limb identity for pitx1, left-right asymmetry for pitx2, and eye development and survival of midbrain dopaminergic neurons for pitx3. 2007-12-12 2022-01-12 Not clear
Michael Hendricks, Suresh Jesuthasa. Asymmetric innervation of the habenula in zebrafish. The Journal of comparative neurology vol 502 issue 4 2007 17394162 recent studies in zebrafish have characterized molecular pathways that give rise to the habenular asymmetry and the distinct projections of the left and right habenula to the midbrain. 2007-06-21 2022-01-12 Not clear
Marc Sch\\xc3\\xb6nwiesner, Katrin Krumbholz, Rudolf R\\xc3\\xbcbsamen, Gereon R Fink, D Yves von Cramo. Hemispheric asymmetry for auditory processing in the human auditory brain stem, thalamus, and cortex. Cerebral cortex (New York, N.Y. : 1991) vol 17 issue 2 2007 16565292 we report evidence for a context- and not stimulus-dependent functional asymmetry in the left and right human auditory midbrain, thalamus, and cortex in response to monaural sounds. 2007-02-28 2022-01-12 Not clear
Nicolaas I Bohnen, Roger L Albin, Robert A Koeppe, Kristine A Wernette, Michael R Kilbourn, Satoshi Minoshima, Kirk A Fre. Positron emission tomography of monoaminergic vesicular binding in aging and Parkinson disease. Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism vol 26 issue 9 2006 16421508 striatal and midbrain dtbz binding was asymmetric in pd subjects, with greatest reductions contralateral to the most clinically affected limbs. 2006-09-20 2022-01-12 Not clear
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 directional asymmetry of the zebrafish epithalamus guides dorsoventral innervation of the midbrain target. 2005-12-29 2022-01-12 Not clear
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 under the influence of nodal signaling, positioning of the parapineal sets the direction of habenular asymmetry and thereby determines the left-right origin of habenular projections onto the midbrain target, the interpeduncular nucleus (ipn). 2005-12-29 2022-01-12 Not clear
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