| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Hiroshi Adachi, Jun Numata, Katsuya Nishida, Hiroshi Yamasaki, Naonobu Futamur. Dystextia and dystypia due to phonological errors after ischemic stroke: a case report in a Japanese patient. Neurocase. 2024-04-27. PMID:38676356. |
it was concluded that his abnormal phonological processes resulted from hypoperfusion in the left inferior precentral gyrus that is assumed to be an endpoint of the arcuate fasciculus. |
2024-04-27 |
2024-04-29 |
Not clear |
| Thomas E Cope, Ediz Sohoglu, Katie A Peterson, P Simon Jones, Catarina Rua, Luca Passamonti, William Sedley, Brechtje Post, Jan Coebergh, Christopher R Butler, Peter Garrard, Khaled Abdel-Aziz, Masud Husain, Timothy D Griffiths, Karalyn Patterson, Matthew H Davis, James B Row. Temporal lobe perceptual predictions for speech are instantiated in motor cortex and reconciled by inferior frontal cortex. Cell reports. vol 42. issue 5. 2023-04-26. PMID:37099422. |
in contrast, precentral gyrus represents a combination of phonological information and weighted prediction error. |
2023-04-26 |
2023-08-14 |
Not clear |
| Thomas E Cope, Ediz Sohoglu, Katie A Peterson, P Simon Jones, Catarina Rua, Luca Passamonti, William Sedley, Brechtje Post, Jan Coebergh, Christopher R Butler, Peter Garrard, Khaled Abdel-Aziz, Masud Husain, Timothy D Griffiths, Karalyn Patterson, Matthew H Davis, James B Row. Temporal lobe perceptual predictions for speech are instantiated in motor cortex and reconciled by inferior frontal cortex. Cell reports. vol 42. issue 5. 2023-04-26. PMID:37099422. |
this manifests neurally as a failure to suppress incorrect predictions in anterior superior temporal gyrus and reduced stability of phonological representations in precentral gyrus. |
2023-04-26 |
2023-08-14 |
Not clear |
| Deborah F Levy, Alexander B Silva, Terri L Scott, Jessie R Liu, Sarah Harper, Lingyun Zhao, Patrick W Hullett, Garret Kurteff, Stephen M Wilson, Matthew K Leonard, Edward F Chan. Apraxia of speech with phonological alexia and agraphia following resection of the left middle precentral gyrus: illustrative case. Journal of neurosurgery. Case lessons. vol 5. issue 13. 2023-04-04. PMID:37014023. |
apraxia of speech with phonological alexia and agraphia following resection of the left middle precentral gyrus: illustrative case. |
2023-04-04 |
2023-08-14 |
Not clear |
| Griffin E Koch, Melissa E Libertus, Julie A Fiez, Marc N Coutanch. Representations within the Intraparietal Sulcus Distinguish Numerical Tasks and Formats. Journal of cognitive neuroscience. 2022-10-28. PMID:36306247. |
classification analyses revealed that neural codes representing distinctions between the number comparison and phonological tasks were generalizable across format (e.g., arabic numerals to hands) within intraparietal sulcus (ips), ag, and precentral gyrus. |
2022-10-28 |
2023-08-14 |
human |
| Chun Yin Liu, Ran Tao, Lang Qin, Stephen Matthews, Wai Ting Sio. Functional connectivity during orthographic, phonological, and semantic processing of Chinese characters identifies distinct visuospatial and phonosemantic networks. Human brain mapping. 2022-09-13. PMID:36097409. |
orthographic processing more strongly recruited the left dorsolateral prefrontal cortex, left superior parietal lobule and bilateral fusiform gyri; semantic processing more strongly recruited the left inferior frontal gyrus and left middle temporal gyrus, whereas phonological processing more strongly activated the dorsal part of the precentral gyrus. |
2022-09-13 |
2023-08-14 |
Not clear |
| Xi Yu, Jade Dunstan, Sandra W Jacobson, Christopher D Molteno, Nadine M Lindinger, Theodore K Turesky, Ernesta M Meintjes, Joseph L Jacobson, Nadine Gaa. Distinctive neural correlates of phonological and reading impairment in fetal alcohol-exposed adolescents with and without facial dysmorphology. Neuropsychologia. 2022-02-26. PMID:35218791. |
specifically, compared to the he and control groups, the syndromal adolescents showed greater activation in the right precentral gyrus during phonological processing and rightward lateralization in an important reading-related tract (inferior longitudinal fasciculus, ilf), suggesting an atypical reliance on the right hemisphere. |
2022-02-26 |
2023-08-13 |
Not clear |
| Erik Kaestner, Thomas Thesen, Orrin Devinsky, Werner Doyle, Chad Carlson, Eric Halgre. An Intracranial Electrophysiology Study of Visual Language Encoding: The Contribution of the Precentral Gyrus to Silent Reading. Journal of cognitive neuroscience. vol 33. issue 11. 2021-12-08. PMID:34347873. |
articulatory phonemic representations in the precentral gyrus are obviously involved in reading aloud, but it is unclear if the precentral gyrus is recruited during reading silently in a time window consistent with participation in phonological processing contributions. |
2021-12-08 |
2023-08-13 |
Not clear |
| Victoria J Hodgson, Matthew A Lambon Ralph, Rebecca L Jackso. Multiple dimensions underlying the functional organization of the language network. NeuroImage. vol 241. 2021-10-20. PMID:34343627. |
whilst semantic and phonological processing consistently recruit many overlapping regions, they can be dissociated (by differential involvement of bilateral anterior temporal lobes, precentral gyrus and superior temporal gyri) only when using both formal analysis methods and sufficient data. |
2021-10-20 |
2023-08-13 |
human |
| Barbara Tomasino, Tamara Ius, Miran Skrap, Claudio Luzzatt. Phonological and surface dyslexia in individuals with brain tumors: Performance pre-, intra-, immediately post-surgery and at follow-up. Human brain mapping. vol 41. issue 17. 2021-05-17. PMID:32857483. |
lesion-mask subtraction analyses revealed that areas selectively related with phonological dyslexia were located-along with the left hemisphere dorsal stream-in the rolandic operculum, the inferior frontal gyrus, the precentral gyrus, the supramarginal gyrus, the insula (and/or the underlying external capsule), and parts of the superior longitudinal fasciculus, whereas lesions related to surface dyslexia involved the ventral stream, that is, the left middle and inferior temporal gyrus and parts of the left inferior longitudinal fasciculus. |
2021-05-17 |
2023-08-13 |
Not clear |
| Yasuhisa Sakurai, Emi Furukawa, Masanori Kurihara, Izumi Sugimot. Frontal Phonological Agraphia and Acalculia with Impaired Verbal Short-Term Memory due to Left Inferior Precentral Gyrus Lesion. Case reports in neurology. vol 10. issue 1. 2020-10-01. PMID:29681826. |
the present case also suggests that the opercular part of the precentral gyrus constitutes the phonological route in writing that conveys phonological information of syllable sequences, and its damage causes phonological agraphia and acalculia with reduced verbal short-term memory. |
2020-10-01 |
2023-08-13 |
Not clear |
| Yasuhisa Sakurai, Emi Furukawa, Masanori Kurihara, Izumi Sugimot. Frontal Phonological Agraphia and Acalculia with Impaired Verbal Short-Term Memory due to Left Inferior Precentral Gyrus Lesion. Case reports in neurology. vol 10. issue 1. 2020-10-01. PMID:29681826. |
frontal phonological agraphia and acalculia with impaired verbal short-term memory due to left inferior precentral gyrus lesion. |
2020-10-01 |
2023-08-13 |
Not clear |
| Yasuhisa Sakurai, Emi Furukawa, Masanori Kurihara, Izumi Sugimot. Frontal Phonological Agraphia and Acalculia with Impaired Verbal Short-Term Memory due to Left Inferior Precentral Gyrus Lesion. Case reports in neurology. vol 10. issue 1. 2020-10-01. PMID:29681826. |
we report a patient with phonological agraphia (selective impairment of kana [japanese phonetic writing] nonwords) and acalculia (mental arithmetic difficulties) with impaired verbal short-term memory after a cerebral hemorrhage in the opercular part of the left precentral gyrus (brodmann area 6) and the adjacent postcentral gyrus. |
2020-10-01 |
2023-08-13 |
Not clear |
| Melodie Yen, Andrew T DeMarco, Stephen M Wilso. Adaptive paradigms for mapping phonological regions in individual participants. NeuroImage. vol 189. 2020-01-23. PMID:30665008. |
phonological encoding depends on left-lateralized regions in the supramarginal gyrus and the ventral precentral gyrus. |
2020-01-23 |
2023-08-13 |
human |
| Hengshuang Liu, Fan Ca. L1 and L2 processing in the bilingual brain: A meta-analysis of neuroimaging studies. Brain and language. vol 159. 2017-09-12. PMID:27295606. |
the bilateral auditory cortex and right precentral gyrus were more involved in shallower-than-l1 l2s, suggesting a "sound-out" strategy for a more regular language by involving the phonological regions and sensorimotor regions to a greater degree. |
2017-09-12 |
2023-08-13 |
Not clear |
| Yu Shimizu, Junichiro Yoshimoto, Shigeru Toki, Masahiro Takamura, Shinpei Yoshimura, Yasumasa Okamoto, Shigeto Yamawaki, Kenji Doy. Toward Probabilistic Diagnosis and Understanding of Depression Based on Functional MRI Data Analysis with Logistic Group LASSO. PloS one. vol 10. issue 5. 2016-02-02. PMID:25932629. |
weights for the phonological task indicated contributions from left inferior frontal operculum, left post central gyrus, left insula, left middle frontal cortex, bilateral middle temporal cortices, bilateral precuneus, left inferior frontal cortex (pars triangularis), and left precentral gyrus. |
2016-02-02 |
2023-08-13 |
human |
| Muna van Ermingen-Marbach, Marion Grande, Julia Pape-Neumann, Katharina Sass, Stefan Hei. Distinct neural signatures of cognitive subtypes of dyslexia with and without phonological deficits. NeuroImage. Clinical. vol 2. 2014-06-17. PMID:24936406. |
subtype-specific increased activation was systematically found for the phonological dyslexics as compared to those without this deficit and controls in the left inferior frontal gyrus (area 44: phonological segmentation), the left sma (area 6), the left precentral gyrus (area 6) and the right insula. |
2014-06-17 |
2023-08-13 |
Not clear |
| Li Liu, Wenping You, Wenjing Wang, Xiaojuan Guo, Danling Peng, James Boot. Altered brain structure in Chinese dyslexic children. Neuropsychologia. vol 51. issue 7. 2014-01-10. PMID:23542499. |
the deficit in phonological processing was further supported by reductions in white matter volumes (wmv) in left precentral gyrus. |
2014-01-10 |
2023-08-12 |
Not clear |
| Karen Emmorey, Jill Weisberg, Stephen McCullough, Jennifer A F Petric. Mapping the reading circuitry for skilled deaf readers: an fMRI study of semantic and phonological processing. Brain and language. vol 126. issue 2. 2013-10-21. PMID:23747332. |
however, phonological processing elicited increased neural activity in deaf, relative to hearing readers, in the left precentral gyrus, suggesting greater reliance on articulatory phonological codes, and in bilateral parietal cortex, suggesting increased phonological processing effort. |
2013-10-21 |
2023-08-12 |
human |
| Kim Veroude, David G Norris, Elena Shumskaya, Marianne Gullberg, Peter Indefre. Functional connectivity between brain regions involved in learning words of a new language. Brain and language. vol 113. issue 1. 2010-05-31. PMID:20116090. |
in the first resting state period, before presentation of the movie, stronger functional connectivity was observed for the learners compared to the non-learners between the left supplementary motor area and the left precentral gyrus as well as the left insula and the left rolandic operculum, regions that are important for phonological rehearsal. |
2010-05-31 |
2023-08-12 |
human |