All Relations between brodmann area 21 and temporopolar cortex

Reference Sentence Publish Date Extraction Date Species
Brigitte Bir\\xc3\\xb3, Ren\\xc3\\xa1ta Cserj\\xc3\\xa9si, Nat\\xc3\\xa1lia Kocsel, Attila Galambos, Kinga Gecse, Lilla N\\xc3\\xb3ra Kov\\xc3\\xa1cs, D\\xc3\\xa1niel Baksa, Gabriella Juh\\xc3\\xa1sz, Gy\\xc3\\xb6ngyi K\\xc3\\xb6k\\xc3\\xb6nye. The neural correlates of context driven changes in the emotional response: An fMRI study. PloS one vol 17 issue 12 2022 36584048 in general, context (vs. pictures without context) increased activation in areas involved in facial emotional processing (e.g., middle temporal gyrus, fusiform gyrus, and temporal pole) and affective mentalizing (e.g., precuneus, temporoparietal junction). 2022-12-30 2023-01-05 Not clear
Wenfei Ou, Wenxiu Zeng, Wenjian Gao, Juan He, Yufei Meng, Xiaowen Fang, Jingxin Ni. Movie Events Detecting Reveals Inter-Subject Synchrony Difference of Functional Brain Activity in Autism Spectrum Disorder. Frontiers in computational neuroscience vol 16 issue 2022 35591883 then, using inter-subject correlation (isc) and isfc analysis, we found that in three movie events involving character emotions, the asd group showed significantly lower isc in the middle temporal gyrus, temporal pole, cerebellum, caudate, precuneus, and showed decreased functional connectivity between large scale networks than that in td. 2022-05-20 2022-06-13 Not clear
Yong-Ming Wang, Zhou-Ya Yang, Yi Wang, Yan-Yu Wang, Xin-Lu Cai, Rui-Ting Zhang, Hui-Xin Hu, Eric F C Cheung, Raymond C K Cha. Grey matter volume and structural covariance associated with schizotypy. Schizophrenia research vol 224 issue 2021 33046333 correlation analysis revealed that grey matter volume of the left middle temporal pole and the right sfg correlated positively with the spq total scores, volume of the bilateral cerebellum 9 sub-region correlated negatively with the spq cognitive-perceptual sub-scale scores, volume of the bilateral striatum correlated positively with the spq interpersonal sub-scale scores, and volume of the bilateral superior temporal pole correlated positively with the spq disorganization sub-scale scores in the high schizotypy group. 2021-06-17 2022-01-14 Not clear
Faye F McKenna, Laura Miles, James S Babb, Donald C Goff, Mariana Laza. Diffusion kurtosis imaging of gray matter in schizophrenia. Cortex; a journal devoted to the study of the nervous system and behavior vol 121 issue 2020 31629198 we found significantly increased mk and md in sz compared to hc participants in the temporal lobe, sub-lobar temporal cortical regions (fusiform, inferior temporal, middle temporal and temporal pole), and posterior cingulate cortex after correcting for multiple comparisons. 2020-11-24 2022-01-13 Not clear
Annabel D Nijhof, Lara Bardi, Marcel Brass, Jan R Wiersem. Brain activity for spontaneous and explicit mentalizing in adults with autism spectrum disorder: An fMRI study. NeuroImage. Clinical vol 18 issue 2019 29876255 moreover, the possible role of the anterior middle temporal pole in disturbed mentalizing in asd deserves further attention. 2019-02-04 2022-01-13 Not clear
Molly R LaPoint, Jasmeer P Chhatwal, Jorge Sepulcre, Keith A Johnson, Reisa A Sperling, Aaron P Schult. The association between tau PET and retrospective cortical thinning in clinically normal elderly. NeuroImage vol 157 issue 2018 28545932 significant local relationships were seen in right superior temporal, middle temporal, temporal pole, and fusiform, as well as the left cuneus and banks of the left superior temporal sulcus. 2018-05-28 2022-01-13 Not clear
David M Bashwiner, Christopher J Wertz, Ranee A Flores, Rex E Jun. Musical Creativity \"Revealed\" in Brain Structure: Interplay between Motor, Default Mode, and Limbic Networks. Scientific reports vol 6 issue 2016 26888383 this study presents structural imaging data indicating that musically creative people (as indicated by self-report) have greater cortical surface area or volume in a) regions associated with domain-specific higher-cognitive motor activity and sound processing (dorsal premotor cortex, supplementary and pre-supplementary motor areas, and planum temporale), b) domain-general creative-ideation regions associated with the default mode network (dorsomedial prefrontal cortex, middle temporal gyrus, and temporal pole), and c) emotion-related regions (orbitofrontal cortex, temporal pole, and amygdala). 2016-12-23 2022-01-12 Not clear
Rik Ossenkoppele, Niklas Mattsson, Charlotte E Teunissen, Frederik Barkhof, Yolande Pijnenburg, Philip Scheltens, Wiesje M van der Flier, Gil D Rabinovic. Cerebrospinal fluid biomarkers and cerebral atrophy in distinct clinical variants of probable Alzheimer's disease. Neurobiology of aging vol 36 issue 8 2016 25990306 voxelwise\xc2\xa0linear regressions showed various relationships between lower csf-a\xce\xb242 and syndrome-specific atrophy, involving precuneus, posterior cingulate, and medial temporal lobe in early-onset ad, occipital cortex and middle temporal gyrus in posterior cortical atrophy; anterior cingulate, insular cortex and precentral gyrus (left > right) in logopenic variant primary progressive aphasia; and medial temporal lobe, thalamus, and temporal pole in late-onset ad (all at p < 0.001 uncorrected). 2016-03-17 2022-01-12 Not clear
C J Price, C J Moore, G W Humphreys, R J Wis. Segregating Semantic from Phonological Processes during Reading. Journal of cognitive neuroscience vol 9 issue 6 2013 23964595 relative to the phonological task, the semantic task was associated with activations in left extrasylvian temporal cortex with the highest activity in the left temporal pole and a posterior region of the left middle temporal cortex (ba 39) close to the angular gyrus. 2013-08-23 2022-01-12 Not clear
Jing Yang, Pinglei Pan, Wei Song, Hui-Fang Shan. Quantitative meta-analysis of gray matter abnormalities in semantic dementia. Journal of Alzheimer's disease : JAD vol 31 issue 4 2013 22699847 gray matter volume reductions were found in bilateral fusiform and inferior temporal gyri, extending to the medial portion of the temporal lobes (including amygdala and parahippocampal gyri), left temporal pole, middle temporal gyrus, and caudate. 2013-07-08 2022-01-12 Not clear
Iris M Balodis, Cheryl M Lacadie, Marc N Potenz. A preliminary study of the neural correlates of the intensities of self-reported gambling urges and emotions in men with pathological gambling. Journal of gambling studies vol 28 issue 3 2012 21811809 during this epoch, corresponding with conscious awareness of an emotional/motivational response, subjective ratings of gambling urges in the pg group were negatively correlated with medial prefrontal cortex activation and positively correlated with middle temporal gyrus and temporal pole activations. 2012-11-27 2022-01-12 Not clear
S M Brambati, J Ogar, J Neuhaus, B L Miller, M L Gorno-Tempin. Reading disorders in primary progressive aphasia: a behavioral and neuroimaging study. Neuropsychologia vol 47 issue 8-9 2009 19428421 neuroimaging results showed that exception word reading accuracy correlated with gray matter volume in the left anterior temporal structures, including the temporal pole, the anterior superior and middle temporal and fusiform gyri, while pseudo-word reading accuracy correlated with left temporoparietal regions, including the posterior superior and middle temporal and fusiform gyri, and the inferior parietal lobule. 2009-08-10 2022-01-12 Not clear
Martin Fink, Wolfgang Wadsak, Markus Savli, Patrycja Stein, Ulrike Moser, Andreas Hahn, Leonhard-Key Mien, Kurt Kletter, Markus Mitterhauser, Siegfried Kasper, Rupert Lanzenberge. Lateralization of the serotonin-1A receptor distribution in language areas revealed by PET. NeuroImage vol 45 issue 2 2009 19103294 we found significantly higher 5-ht1a receptor binding in the superior and middle frontal gyri of the right hemisphere, the triangular and orbital parts of the inferior frontal gyrus, the supramarginal gyrus, the superior gyrus of the temporal pole and the middle temporal gyrus. 2009-05-13 2022-01-13 Not clear
Thomas Ethofer, Silke Anders, Michael Erb, Cornelia Herbert, Sarah Wiethoff, Johanna Kissler, Wolfgang Grodd, Dirk Wildgrube. Cerebral pathways in processing of affective prosody: a dynamic causal modeling study. NeuroImage vol 30 issue 2 2006 16275138 conventional analysis of fmri data revealed activation within the right posterior middle temporal gyrus and bilateral inferior frontal cortex during evaluation of affective prosody and left temporal pole, orbitofrontal, and medial superior frontal cortex during judgment of affective semantics. 2006-05-23 2022-01-12 Not clear
Stephanie Clarke, Anne Bellmann Thiran, Philippe Maeder, Michela Adriani, Olivier Vernet, Luca Regli, Olivier Cuisenaire, Jean-Philippe Thira. What and where in human audition: selective deficits following focal hemispheric lesions. Experimental brain research vol 147 issue 1 2003 12373363 the lesions involved the inferior parietal and frontal cortices, and the superior temporal gyrus in patients with selective sound localization deficit; and the temporal pole and anterior part of the fusiform, inferior and middle temporal gyri in patients with selective recognition deficit. 2003-04-01 2022-01-11 Not clear
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