Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
Courtney E Casale, Ryssa Moffat, Emily S Cros. Aesthetic evaluation of body movements shaped by embodied and arts experience: Insights from behaviour and fNIRS. Scientific reports. vol 14. issue 1. 2024-10-29. PMID:39468228. |
we ran two experiments exploring individual differences in embodied experience and experience with the arts: in study 1, we explored how participants' (n = 41) abilities to learn a choreography shaped their aesthetic perceptions while viewing learned vs. unknown movements, using functional near-infrared spectroscopy (fnirs) to measure cortical activation over the action observation network (i.e., inferior frontal gyrus [ifg], inferior parietal lobule, middle temporal gyrus [mtg]). |
2024-10-29 |
2024-10-31 |
human |
Courtney E Casale, Ryssa Moffat, Emily S Cros. Aesthetic evaluation of body movements shaped by embodied and arts experience: Insights from behaviour and fNIRS. Scientific reports. vol 14. issue 1. 2024-10-29. PMID:39468228. |
study 1 demonstrated that embodied experience enhanced ratings of enjoyment, familiarity, and reproducibility of movements, and that individual differences in participants' performance of the learned choreography were not associated with aesthetic ratings, but rather cortical activation in ifg and right mtg while viewing learned choreography. |
2024-10-29 |
2024-10-31 |
human |
Xinhong Jin, Shuying Chen, Yapeng Qi, Qichen Zhou, Jian Wang, Yingying Wang, Chenglin Zho. Differential Resting-State Brain Characteristics of Skeleton Athletes and Non-Athletes: A Preliminary Resting-State fMRI Study. Brain sciences. vol 14. issue 10. 2024-10-26. PMID:39452029. |
(3) results: compared to the control group, skeleton athletes exhibited significantly higher alff in the left fusiform, left inferior temporal gyrus, right inferior frontal gyrus, left middle temporal gyrus, left and right insula, left rolandic operculum, left inferior frontal gyrus, and left superior temporal gyrus. |
2024-10-26 |
2024-10-28 |
Not clear |
Coline Grégoire, Lucie Attout, Christophe Phillips, Lucas Rifon, Louis Hody, Steve Majeru. The Neural Specificity of Interference Resolution in Phonological, Semantic, and Visual Domains at Different Ages. Journal of cognitive neuroscience. 2024-10-21. PMID:39432690. |
for both age groups, domain-specific ri effects were observed at the univariate level, with increased involvement in the phonological domain of the right angular gyrus and the right lingual gyrus, in the semantic domain of the bilateral inferior frontal gyrus, the bilateral superior parietal and angular gyri and the left middle temporal gyrus, and in the visual domain of the middle/superior frontal gyri and occipital gyri. |
2024-10-21 |
2024-10-24 |
human |
Reed Farrar, Samin Ashjaei, Meisam K Arjmand. Speech-evoked cortical activities and speech recognition in adult cochlear implant listeners: a review of functional near-infrared spectroscopy studies. Experimental brain research. 2024-09-21. PMID:39305309. |
among ci listeners, higher speech recognition scores correlated with lower speech-evoked activation in the stg, higher activation in the left ifg and left fusiform gyrus, with mixed findings in the mtg. |
2024-09-21 |
2024-09-24 |
Not clear |
Sibylla Leon Guerrero, Laura Mesite, Gigi Lu. Distinct functional connectivity patterns during naturalistic learning by adolescent first versus second language speakers. Scientific reports. vol 14. issue 1. 2024-08-16. PMID:39152202. |
seed analyses including the left inferior frontal gyrus (pars opercularis) and posterior middle temporal gyrus showed that l1-spanish adolescents, when learning in their second language (l2), displayed widespread bilateral functional connectivity throughout the cortex while l1-english adolescents displayed mostly left-lateralized connectivity with core language regions over the course of the science lesson. |
2024-08-16 |
2024-08-20 |
Not clear |
Tengyu Yang, Xinmiao Fan, Bo Hou, Jian Wang, Xiaowei Che. Linguistic network in early deaf individuals: A neuroimaging meta-analysis. NeuroImage. 2024-07-06. PMID:38971484. |
meta-analytic comparisons with hearing individuals found that a specific set of regions (in particular the left inferior frontal gyrus and posterior middle temporal gyrus) participates in supramodal language processing. |
2024-07-06 |
2024-07-12 |
Not clear |
Steffen Riemann, Jil van Lück, Antoni Rodríguez-Fornells, Agnes Flöel, Marcus Meinze. The role of frontal cortex in novel-word learning and consolidation: Evidence from focal transcranial direct current stimulation. Cortex; a journal devoted to the study of the nervous system and behavior. vol 177. 2024-06-02. PMID:38824804. |
participants were randomly assigned to six stimulation conditions: active tdcs (1.5 ma) was administered to left inferior frontal (ifg) or middle temporal gyrus (mtg), either during acquisition or delayed recall. |
2024-06-02 |
2024-06-05 |
human |
Nea Rinne, Patrik Wikman, Elisa Sahari, Juha Salmi, Elisabet Einarsdóttir, Juha Kere, Kimmo Alh. Developmental dyslexia susceptibility genes DNAAF4, DCDC2, and NRSN1 are associated with brain function in fluently reading adolescents and young adults. Cerebral cortex (New York, N.Y. : 1991). vol 34. issue 4. 2024-04-13. PMID:38610086. |
the results revealed that variation in dnaaf4, dcdc2, and nrsn1 is associated with brain activity in key language regions: the left inferior frontal gyrus, middle temporal gyrus, and intraparietal sulcus. |
2024-04-13 |
2024-04-15 |
Not clear |
Caroline Arvidsson, Ekaterina Torubarova, André Pereira, Julia Uddé. Conversational production and comprehension: fMRI-evidence reminiscent of but deviant from the classical Broca-Wernicke model. Cerebral cortex (New York, N.Y. : 1991). vol 34. issue 3. 2024-03-19. PMID:38501383. |
activity in the left inferior frontal gyrus was stronger in production compared to comprehension, while comprehension showed stronger recruitment of the left anterior middle temporal gyrus and superior temporal sulcus, compared to production. |
2024-03-19 |
2024-03-21 |
human |
Vincent DeLuca, Toms Voits, Jianzhang Ni, Felix Carter, Foyzul Rahman, Ali Mazaheri, Andrea Krott, Katrien Segaer. Mapping individual aspects of bilingual experience to adaptations in brain structure. Cerebral cortex (New York, N.Y. : 1991). vol 34. issue 2. 2024-02-16. PMID:38365272. |
consistent with the model's predictions, greater intensity and diversity of bilingual language use resulted in changes in gray matter volume in cortical regions involved in executive control (including inferior frontal gyrus, middle temporal gyrus, angular gyrus, and medial frontal gyrus), indicating adaptations toward handling increased executive control demands. |
2024-02-16 |
2024-02-19 |
Not clear |
Neelima Wagley, Xiaosu Hu, Teresa Satterfield, Lisa M Bedore, James R Booth, Ioulia Kovelma. Neural specificity for semantic and syntactic processing in Spanish-English bilingual children. Brain and language. vol 250. 2024-02-01. PMID:38301503. |
during functional near infrared spectroscopy (fnirs), the morphosyntax task elicited activation in left inferior frontal gyrus (ifg) and the semantic task elicited activation in left posterior middle temporal gyrus (mtg). |
2024-02-01 |
2024-02-04 |
Not clear |
Neelima Wagley, Xiaosu Hu, Teresa Satterfield, Lisa M Bedore, James R Booth, Ioulia Kovelma. Neural specificity for semantic and syntactic processing in Spanish-English bilingual children. Brain and language. vol 250. 2024-02-01. PMID:38301503. |
although skills in neither language were uniquely related to specialization, skills in both languages were related to engagement of the left mtg for semantics and left ifg for syntax. |
2024-02-01 |
2024-02-04 |
Not clear |
Erica Adezati, Xianqing Liu, Junhua Ding, Melissa Thye, Jerzy P Szaflarski, Daniel Mirma. Phase synchronization during the processing of taxonomic and thematic relations. Brain and language. vol 249. 2024-01-19. PMID:38241856. |
this study examined this claim by analyzing the intra- and inter-region phase synchronization of intracranial eeg data from electrodes in the atl, ipl, and two subregions of the semantic control network: left inferior frontal gyrus (ifg) and posterior middle temporal gyrus (pmtg). |
2024-01-19 |
2024-01-22 |
human |
Elizabeth K Wat, David C Jangraw, Emily S Finn, Peter A Bandettini, Jonathan L Preston, Nicole Landi, Fumiko Hoeft, Stephen J Frost, Airey Lau, Gang Chen, Kenneth R Pugh, Peter J Molfes. Will you read how I will read? Naturalistic fMRI predictors of emergent reading. Neuropsychologia. 2023-12-23. PMID:38141965. |
of particular interest are that several previously identified brain regions (medial temporal gyrus (mtg), inferior frontal gyrus (ifg), inferior temporal gyrus (itg)) were found to "synchronize" across higher reading ability participants, while poor performers showed desynchronization from both proficient readers and other inefficient readers. |
2023-12-23 |
2023-12-25 |
human |
Francesca M Branzi, Matthew A Lambon Ralp. Semantic-specific and domain-general mechanisms for integration and update of contextual information. Human brain mapping. 2023-10-03. PMID:37787648. |
whole-brain results revealed both shared (left posterior-dorsal inferior frontal gyrus, left posterior inferior temporal gyrus, and left dorsal angular gyrus/intraparietal sulcus) and distinct (left anterior-ventral inferior frontal gyrus, left anterior ventral angular gyrus, left posterior middle temporal gyrus for semantic control only) regions involved in context integration and update. |
2023-10-03 |
2023-10-07 |
Not clear |
Zhengjie Liu, Hailing Zhao, Yashi Xu, Jie Liu, Fang Cu. Prosocial decision-making under time pressure: Behavioral and neural mechanisms. Human brain mapping. 2023-09-29. PMID:37771259. |
for prosocial decision-making, high time pressure suppressed activations in multiple brain regions related to empathy (temporal pole, middle temporal gyrus, and inferior frontal gyrus), valuation (medial orbitofrontal cortex), and emotion (putamen). |
2023-09-29 |
2023-10-07 |
human |
Yanyang Huang, Jiayu Huang, Le Li, Tao Lin, Laiquan Zo. Neural network of metaphor comprehension: an ALE meta-analysis and MACM analysis. Cerebral cortex (New York, N.Y. : 1991). 2023-09-17. PMID:37718244. |
first, the results showed that metaphor comprehension engaged the inferior frontal gyrus, middle temporal gyrus, fusiform gyrus, lingual gyrus, and middle occipital gyrus-all in the left hemisphere. |
2023-09-17 |
2023-10-07 |
human |
Jing Yan, Wenjuan Li, Tingting Zhang, Junjun Zhang, Zhenlan Jin, Ling L. Structural and functional neural substrates underlying the concreteness effect. Brain structure & function. 2023-06-30. PMID:37389616. |
the results show that the gmv of left inferior frontal gyrus (ifg), right middle temporal gyrus (mtg), right supplementary motor area and right anterior cingulate cortex (acc) negatively correlates with the concreteness effect. |
2023-06-30 |
2023-08-14 |
Not clear |
Jing Yan, Wenjuan Li, Tingting Zhang, Junjun Zhang, Zhenlan Jin, Ling L. Structural and functional neural substrates underlying the concreteness effect. Brain structure & function. 2023-06-30. PMID:37389616. |
the rsfc of the left ifg, the right mtg and the right acc with the nodes, mainly in default mode network, frontoparietal network and dorsal attention network positively correlates with the concreteness effect. |
2023-06-30 |
2023-08-14 |
Not clear |