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Items: 1 to 20 of 63

1.

Numerical Transcoding Proficiency in 10-Year-Old Schoolchildren is Associated with Gray Matter Inter-Individual Differences: A Voxel-Based Morphometry Study.

Lubin A, Rossi S, Simon G, Lanoë C, Leroux G, Poirel N, Pineau A, Houdé O.

Front Psychol. 2013 Apr 25;4:197. doi: 10.3389/fpsyg.2013.00197.

2.

Brain structure, number magnitude processing, and math proficiency in 6- to 7-year-old children born prematurely: a voxel-based morphometry study.

Starke M, Kiechl-Kohlendorfer U, Kucian K, Pupp Peglow U, Kremser C, Schocke M, Kaufmann L.

Neuroreport. 2013 May 29;24(8):419-24. doi: 10.1097/WNR.0b013e32836140ed.

PMID:
23587788
3.

Individual structural differences in left inferior parietal area are associated with schoolchildrens' arithmetic scores.

Li Y, Hu Y, Wang Y, Weng J, Chen F.

Front Hum Neurosci. 2013 Dec 6;7:844. doi: 10.3389/fnhum.2013.00844.

4.

Optimized voxel-based morphometry in children with developmental dyscalculia.

Rotzer S, Kucian K, Martin E, von Aster M, Klaver P, Loenneker T.

Neuroimage. 2008 Jan 1;39(1):417-22.

PMID:
17928237
5.

Juggling revisited - a voxel-based morphometry study with expert jugglers.

Gerber P, Schlaffke L, Heba S, Greenlee MW, Schultz T, Schmidt-Wilcke T.

Neuroimage. 2014 Jul 15;95:320-5. doi: 10.1016/j.neuroimage.2014.04.023.

PMID:
24736178
6.

Regional brain gray matter volume differences in patients with bipolar disorder as assessed by optimized voxel-based morphometry.

Lochhead RA, Parsey RV, Oquendo MA, Mann JJ.

Biol Psychiatry. 2004 Jun 15;55(12):1154-62.

PMID:
15184034
7.

Cognitive impairment and gray/white matter volume abnormalities in pediatric patients with Turner syndrome presenting with various karyotypes.

Zhao Q, Zhang Z, Xie S, Pan H, Zhang J, Gong G, Cui Z.

J Pediatr Endocrinol Metab. 2013;26(11-12):1111-21. doi: 10.1515/jpem-2013-0145.

PMID:
23846137
8.

Gray-white matter and cerebrospinal fluid volume differences in children with Specific Language Impairment and/or Reading Disability.

Girbau-Massana D, Garcia-Marti G, Marti-Bonmati L, Schwartz RG.

Neuropsychologia. 2014 Apr;56:90-100. doi: 10.1016/j.neuropsychologia.2014.01.004.

PMID:
24418156
9.

Increased gray matter density in the parietal cortex of mathematicians: a voxel-based morphometry study.

Aydin K, Ucar A, Oguz KK, Okur OO, Agayev A, Unal Z, Yilmaz S, Ozturk C.

AJNR Am J Neuroradiol. 2007 Nov-Dec;28(10):1859-64.

10.

The relation between 1st grade grey matter volume and 2nd grade math competence.

Price GR, Wilkey ED, Yeo DJ, Cutting LE.

Neuroimage. 2016 Jan 1;124(Pt A):232-7. doi: 10.1016/j.neuroimage.2015.08.046.

PMID:
26334946
11.

Differences in brain structure in patients with distinct sites of chronic pain: A voxel-based morphometric analysis.

Mao C, Wei L, Zhang Q, Liao X, Yang X, Zhang M.

Neural Regen Res. 2013 Nov 15;8(32):2981-90. doi: 10.3969/j.issn.1673-5374.2013.32.001.

12.

Cortical gray matter changes in primary blepharospasm: a voxel-based morphometry study.

Martino D, Di Giorgio A, D'Ambrosio E, Popolizio T, Macerollo A, Livrea P, Bertolino A, Defazio G.

Mov Disord. 2011 Aug 15;26(10):1907-12. doi: 10.1002/mds.23724.

PMID:
21717508
13.

The correlation between brain gray matter volume and empathizing and systemizing quotients in healthy children.

Sassa Y, Taki Y, Takeuchi H, Hashizume H, Asano M, Asano K, Wakabayashi A, Kawashima R.

Neuroimage. 2012 May 1;60(4):2035-41. doi: 10.1016/j.neuroimage.2012.02.021.

PMID:
22369996
14.

Brain structure in post-traumatic stress disorder: A voxel-based morphometry analysis.

Tan L, Zhang L, Qi R, Lu G, Li L, Liu J, Li W.

Neural Regen Res. 2013 Sep 15;8(26):2405-14. doi: 10.3969/j.issn.1673-5374.2013.26.001.

15.

Association between gray matter volume in the caudate nucleus and financial extravagance: findings from voxel-based morphometry.

Yokoyama R, Nozawa T, Takeuchi H, Taki Y, Sekiguchi A, Nouchi R, Kotozaki Y, Nakagawa S, Miyauchi CM, Iizuka K, Shinada T, Yamamoto Y, Hanawa S, Araki T, Hashizume H, Kunitoki K, Hanihara M, Sassa Y, Kawashima R.

Neurosci Lett. 2014 Mar 20;563:28-32. doi: 10.1016/j.neulet.2014.01.026.

PMID:
24486253
16.

Transcoding abilities in typical and atypical mathematics achievers: the role of working memory and procedural and lexical competencies.

Moura R, Wood G, Pinheiro-Chagas P, Lonnemann J, Krinzinger H, Willmes K, Haase VG.

J Exp Child Psychol. 2013 Nov;116(3):707-27. doi: 10.1016/j.jecp.2013.07.008.

PMID:
24007971
17.

The role of the left intraparietal sulcus in the relationship between symbolic number processing and children's arithmetic competence.

Bugden S, Price GR, McLean DA, Ansari D.

Dev Cogn Neurosci. 2012 Oct;2(4):448-57. doi: 10.1016/j.dcn.2012.04.001.

18.

Structural brain correlates of executive engagement in working memory: children's inter-individual differences are reflected in the anterior insular cortex.

Rossi S, Lubin A, Simon G, Lanoë C, Poirel N, Cachia A, Pineau A, Houdé O.

Neuropsychologia. 2013 Jun;51(7):1145-50. doi: 10.1016/j.neuropsychologia.2013.03.011.

PMID:
23542498
19.

Attachment style, affective loss and gray matter volume: a voxel-based morphometry study.

Benetti S, McCrory E, Arulanantham S, De Sanctis T, McGuire P, Mechelli A.

Hum Brain Mapp. 2010 Oct;31(10):1482-9. doi: 10.1002/hbm.20954.

PMID:
20127871
20.

The relationship of structural alterations to cognitive deficits in schizophrenia: a voxel-based morphometry study.

Antonova E, Kumari V, Morris R, Halari R, Anilkumar A, Mehrotra R, Sharma T.

Biol Psychiatry. 2005 Sep 15;58(6):457-67.

PMID:
16039619
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