| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Wayne E Mackey, Orrin Devinsky, Werner K Doyle, Michael R Meager, Clayton E Curti. Human Dorsolateral Prefrontal Cortex Is Not Necessary for Spatial Working Memory. The Journal of neuroscience : the official journal of the Society for Neuroscience. vol 36. issue 10. 2016-07-19. PMID:26961941. |
these results identify the necessary subregion of the frontal cortex for wm and specify how this influential animal model of human cognition must be revised. |
2016-07-19 |
2023-08-13 |
human |
| Xu Li, Ya-hui Xiao, Qing Zhao, Ada W W Leung, Eric F C Cheung, Raymond C K Cha. The neuroplastic effect of working memory training in healthy volunteers and patients with schizophrenia: Implications for cognitive rehabilitation. Neuropsychologia. vol 75. 2016-05-11. PMID:26032579. |
ale analysis of studies in healthy individuals indicates a widespread distribution of activation changes with wm training in the frontal and parietal regions, especially the dorsolateral prefrontal cortex, the medial frontal cortex and the precuneus, as well as subcortical regions such as the insula and the striatum. |
2016-05-11 |
2023-08-13 |
human |
| James D Mills, Woojin S Kim, Glenda M Halliday, Michael Janit. Transcriptome analysis of grey and white matter cortical tissue in multiple system atrophy. Neurogenetics. vol 16. issue 2. 2015-11-25. PMID:25370810. |
using rna sequencing, we performed a comparative transcriptome profiling analysis of the grey matter (gm) and white matter (wm) of the frontal cortex of msa and control brains. |
2015-11-25 |
2023-08-13 |
Not clear |
| Edward F Ester, Thomas C Sprague, John T Serence. Parietal and Frontal Cortex Encode Stimulus-Specific Mnemonic Representations during Visual Working Memory. Neuron. vol 87. issue 4. 2015-11-16. PMID:26257053. |
parietal and frontal cortex encode stimulus-specific mnemonic representations during visual working memory. |
2015-11-16 |
2023-08-13 |
Not clear |
| Christian E Waugh, Maria G Lemus, Ian H Gotli. The role of the medial frontal cortex in the maintenance of emotional states. Social cognitive and affective neuroscience. vol 9. issue 12. 2015-07-20. PMID:24493835. |
supporting the 'active' maintenance hypothesis, when maintaining vs not maintaining emotion, participants exhibited increased height and width of activation in the dorsal medial frontal cortex (mfc) and lateral prefrontal cortex, regions associated with explicit emotion generation and manipulation of contents in working memory, respectively. |
2015-07-20 |
2023-08-12 |
human |
| Roser Sala-Llonch, Eva M Palacios, Carme Junqué, Núria Bargalló, Pere Vendrel. Functional networks and structural connectivity of visuospatial and visuoperceptual working memory. Frontiers in human neuroscience. vol 9. 2015-06-30. PMID:26124716. |
we found that functional recruitment of the fusiform and the inferior frontal cortex was specific for the visuoperceptual working memory task, while there was a high overlap in brain activity maps in parietal and middle frontal areas for both tasks. |
2015-06-30 |
2023-08-13 |
human |
| Zude Zhu, Nathan F Johnson, Chobok Kim, Brian T Gol. Reduced frontal cortex efficiency is associated with lower white matter integrity in aging. Cerebral cortex (New York, N.Y. : 1991). vol 25. issue 1. 2015-04-06. PMID:23960206. |
in 2 regions in right frontal cortex, blood oxygen level-dependent (bold) magnitudes were negatively correlated with wm integrity in tracts connecting these structures with other task-relevant frontoparietal and striatal regions. |
2015-04-06 |
2023-08-12 |
human |
| Zude Zhu, Nathan F Johnson, Chobok Kim, Brian T Gol. Reduced frontal cortex efficiency is associated with lower white matter integrity in aging. Cerebral cortex (New York, N.Y. : 1991). vol 25. issue 1. 2015-04-06. PMID:23960206. |
our results link age-related declines in the efficiency of frontal cortex functioning with lower wm integrity in aging. |
2015-04-06 |
2023-08-12 |
human |
| Borah Kim, Jeong Hoon Kim, Min-Kyoung Kim, Kang Soo Lee, Youngki Kim, Tai Kiu Choi, Yun Tai Kim, Sang-Hyuk Le. Frontal white matter alterations in short-term medicated panic disorder patients without comorbid conditions: a diffusion tensor imaging study. PloS one. vol 9. issue 4. 2015-01-22. PMID:24788587. |
the frontal cortex might play an important role in the fear network, and white matter (wm) integrity could be related to the pathophysiology of panic disorder (pd). |
2015-01-22 |
2023-08-13 |
human |
| Jonathan Lipszyc, Harvey Levin, Gerri Hanten, Jill Hunter, Maureen Dennis, Russell Schacha. Frontal white matter damage impairs response inhibition in children following traumatic brain injury. Archives of clinical neuropsychology : the official journal of the National Academy of Neuropsychologists. vol 29. issue 3. 2014-12-09. PMID:24618405. |
inhibition depends on the frontal cortex, but the role of the underlying white matter (wm) is unclear. |
2014-12-09 |
2023-08-12 |
Not clear |
| Dongming Zheng, Hongzan Sun, Xiaoyu Dong, Baiwei Liu, Yongchuan Xu, Sipan Chen, Lichun Song, Hong Zhang, Xiaoming Wan. Executive dysfunction and gray matter atrophy in amnestic mild cognitive impairment. Neurobiology of aging. vol 35. issue 3. 2014-09-29. PMID:24119547. |
brain regions related to working memory were located in the left anterior cingulate gyrus, left premotor cortex, and right inferior frontal gyrus, and brain regions related to task shifting were distributed in the bilateral frontal cortex. |
2014-09-29 |
2023-08-12 |
Not clear |
| Samantha Huang, Larry J Seidman, Stephanie Rossi, Jyrki Ahvenine. Distinct cortical networks activated by auditory attention and working memory load. NeuroImage. vol 83. 2014-06-25. PMID:23921102. |
specifically, anterior dorsolateral pfc (dlpfc) and the right anterior insula were selectively activated by increasing wm load, whereas subregions of middle lateral pfc and inferior frontal cortex (ifc) were associated with interference only. |
2014-06-25 |
2023-08-12 |
Not clear |
| Samantha Huang, Larry J Seidman, Stephanie Rossi, Jyrki Ahvenine. Distinct cortical networks activated by auditory attention and working memory load. NeuroImage. vol 83. 2014-06-25. PMID:23921102. |
meanwhile, a superadditive interaction between interference and load was detected in left medial superior frontal cortex, suggesting that in this area, activations are not only overlapping, but reflect a common resource pool recruited by increased attentional and wm demands. |
2014-06-25 |
2023-08-12 |
Not clear |
| Marta Simó, Xavier Rifà-Ros, Antoni Rodriguez-Fornells, Jordi Brun. Chemobrain: a systematic review of structural and functional neuroimaging studies. Neuroscience and biobehavioral reviews. vol 37. issue 8. 2014-05-08. PMID:23660455. |
in summary, our review showed: (i) a pre-treatment (prior to chemotherapy) widespread decrease in white matter (wm) volume as well as an increased level of activation of the frontoparietal attentional network of cancer patients compared to controls; (ii) an early diffuse decrease of gray matter (gm) and wm volume together with a decrease of the overactivation in frontal regions in chemotherapy-treated patients compared to controls and (iii) a long-term persisting decrease in gm and wm volumes together with a predominantly frontal cortex hypoactivation in only a subgroup of chemotherapy-treated patients. |
2014-05-08 |
2023-08-12 |
Not clear |
| Magdalene Ortmann, Arne Knief, Dirk Deuster, Stephanie Brinkheetker, Pienie Zwitserlood, Antoinette am Zehnhoff-Dinnesen, Christian Dobe. Neural correlates of speech processing in prelingually deafened children and adolescents with cochlear implants. PloS one. vol 8. issue 7. 2014-02-03. PMID:23861784. |
source analyses revealed larger mmn activity (155-225 ms) in good than in bad performers, which was generated in the frontal cortex and positively correlated with measures of working memory. |
2014-02-03 |
2023-08-12 |
Not clear |
| Gerd Wagner, Kathrin Koch, Claudia Schachtzabel, C Christoph Schultz, Christian Gaser, Jürgen R Reichenbach, Heinrich Sauer, Karl-Jürgen Bär, Ralf G Schlösse. Structural basis of the fronto-thalamic dysconnectivity in schizophrenia: A combined DCM-VBM study. NeuroImage. Clinical. vol 3. 2013-11-01. PMID:24179853. |
wm volume decreases were observed in the patients in the md and the frontal cortex. |
2013-11-01 |
2023-08-12 |
human |
| Christopher H Chatham, David Badr. Working memory management and predicted utility. Frontiers in behavioral neuroscience. vol 7. 2013-07-24. PMID:23882196. |
finally, model-based neuroimaging demonstrated that frontal cortex tracked the utility of items to be maintained in wm, whereas ventral striatum tracked changes in the utility of items maintained in wm to the degree that these items are no longer useful. |
2013-07-24 |
2023-08-12 |
human |
| Tomás R Guilart. Manganese neurotoxicity: new perspectives from behavioral, neuroimaging, and neuropathological studies in humans and non-human primates. Frontiers in aging neuroscience. vol 5. 2013-06-28. PMID:23805100. |
the emerging evidence suggests that working memory is significantly affected by chronic mn exposure and this may be mediated by alterations in brain structures associated with the working memory network including the caudate nucleus in the striatum, frontal cortex and parietal cortex. |
2013-06-28 |
2023-08-12 |
human |
| Sirawaj Itthipuripat, Jan R Wessel, Adam R Aro. Frontal theta is a signature of successful working memory manipulation. Experimental brain research. vol 224. issue 2. 2013-06-14. PMID:23109082. |
using time-frequency analysis of eeg, we showed that theta power increased over frontal cortex for successful versus failed wm manipulation, specifically at the time of the manipulation event. |
2013-06-14 |
2023-08-12 |
human |
| Sandra Chanraud, Anne-Lise Pitel, Eva M Müller-Oehring, Adolf Pfefferbaum, Edith V Sulliva. Remapping the brain to compensate for impairment in recovering alcoholics. Cerebral cortex (New York, N.Y. : 1991). vol 23. issue 1. 2013-06-04. PMID:22275479. |
thus, higher intrinsic cerebellar activity in alcoholics was an adequate condition for triggering task-relevant activity in the frontal cortex required for normal working memory performance. |
2013-06-04 |
2023-08-12 |
Not clear |