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Items: 1 to 20 of 98

1.

Effects of age on prefrontal subregions and hippocampal volumes in young and middle-aged healthy humans.

Wellington RL, Bilder RM, Napolitano B, Szeszko PR.

Hum Brain Mapp. 2013 Sep;34(9):2129-40. doi: 10.1002/hbm.22054. Epub 2012 Apr 10.

2.

Localized volume reduction in prefrontal, temporolimbic, and paralimbic regions in schizophrenia: an MRI parcellation study.

Yamasue H, Iwanami A, Hirayasu Y, Yamada H, Abe O, Kuroki N, Fukuda R, Tsujii K, Aoki S, Ohtomo K, Kato N, Kasai K.

Psychiatry Res. 2004 Sep 15;131(3):195-207.

PMID:
15465289
3.

Regional frontal cortical volumes decrease differentially in aging: an MRI study to compare volumetric approaches and voxel-based morphometry.

Tisserand DJ, Pruessner JC, Sanz Arigita EJ, van Boxtel MP, Evans AC, Jolles J, Uylings HB.

Neuroimage. 2002 Oct;17(2):657-69.

PMID:
12377141
4.

Differential contributions of prefrontal and temporolimbic pathology to mechanisms of psychosis.

Suzuki M, Zhou SY, Takahashi T, Hagino H, Kawasaki Y, Niu L, Matsui M, Seto H, Kurachi M.

Brain. 2005 Sep;128(Pt 9):2109-22. Epub 2005 Jun 1.

5.

Temporolimbic volume reductions in schizophrenia.

Gur RE, Turetsky BI, Cowell PE, Finkelman C, Maany V, Grossman RI, Arnold SE, Bilker WB, Gur RC.

Arch Gen Psychiatry. 2000 Aug;57(8):769-75.

PMID:
10920465
6.

The relationship between frontal gray matter volume and cognition varies across the healthy adult lifespan.

Zimmerman ME, Brickman AM, Paul RH, Grieve SM, Tate DF, Gunstad J, Cohen RA, Aloia MS, Williams LM, Clark CR, Whitford TJ, Gordon E.

Am J Geriatr Psychiatry. 2006 Oct;14(10):823-33.

PMID:
17001022
7.

Selective aging of the human cerebral cortex observed in vivo: differential vulnerability of the prefrontal gray matter.

Raz N, Gunning FM, Head D, Dupuis JH, McQuain J, Briggs SD, Loken WJ, Thornton AE, Acker JD.

Cereb Cortex. 1997 Apr-May;7(3):268-82.

8.

[Brain volumetric MRI study in healthy elderly persons using statistical parametric mapping].

Miyahira Y, Yu J, Hiramatsu K, Shimazaki Y, Takeda Y.

Seishin Shinkeigaku Zasshi. 2004;106(2):138-51. Japanese.

PMID:
15052785
9.

MRI assessment of gray and white matter distribution in Brodmann's areas of the cortex in patients with schizophrenia with good and poor outcomes.

Mitelman SA, Shihabuddin L, Brickman AM, Hazlett EA, Buchsbaum MS.

Am J Psychiatry. 2003 Dec;160(12):2154-68.

PMID:
14638586
10.

Regional prefrontal gray and white matter abnormalities in bipolar disorder.

López-Larson MP, DelBello MP, Zimmerman ME, Schwiers ML, Strakowski SM.

Biol Psychiatry. 2002 Jul 15;52(2):93-100.

PMID:
12114000
11.

Reduced dorsal and orbital prefrontal gray matter volumes in schizophrenia.

Gur RE, Cowell PE, Latshaw A, Turetsky BI, Grossman RI, Arnold SE, Bilker WB, Gur RC.

Arch Gen Psychiatry. 2000 Aug;57(8):761-8. Erratum in: Arch Gen Psychiatry 2000 Sep;57(9):858.

PMID:
10920464
12.

Memory and executive function in older adults: relationships with temporal and prefrontal gray matter volumes and white matter hyperintensities.

Van Petten C, Plante E, Davidson PS, Kuo TY, Bajuscak L, Glisky EL.

Neuropsychologia. 2004;42(10):1313-35.

PMID:
15193940
13.

Anterior cingulate, gyrus rectus, and orbitofrontal abnormalities in elderly depressed patients: an MRI-based parcellation of the prefrontal cortex.

Ballmaier M, Toga AW, Blanton RE, Sowell ER, Lavretsky H, Peterson J, Pham D, Kumar A.

Am J Psychiatry. 2004 Jan;161(1):99-108.

PMID:
14702257
14.

Prefrontal and anterior cingulate cortex abnormalities in Tourette Syndrome: evidence from voxel-based morphometry and magnetization transfer imaging.

Müller-Vahl KR, Kaufmann J, Grosskreutz J, Dengler R, Emrich HM, Peschel T.

BMC Neurosci. 2009 May 12;10:47. doi: 10.1186/1471-2202-10-47.

15.

Effect of leukocyte telomere length on total and regional brain volumes in a large population-based cohort.

King KS, Kozlitina J, Rosenberg RN, Peshock RM, McColl RW, Garcia CK.

JAMA Neurol. 2014 Oct;71(10):1247-54. doi: 10.1001/jamaneurol.2014.1926. Erratum in: JAMA Neurol. 2014 Dec;71(12):1580.

PMID:
25090243
16.

Thought disorder and frontotemporal volumes in pediatric epilepsy.

Caplan R, Levitt J, Siddarth P, Taylor J, Daley M, Wu KN, Gurbani S, Shields WD, Sankar R.

Epilepsy Behav. 2008 Nov;13(4):593-9. doi: 10.1016/j.yebeh.2008.06.021. Epub 2008 Sep 6.

17.

The relationship between prefrontal brain volume and characteristics of memory strategy in schizophrenia spectrum disorders.

Matsui M, Suzuki M, Zhou SY, Takahashi T, Kawasaki Y, Yuuki H, Kato K, Kurachi M.

Prog Neuropsychopharmacol Biol Psychiatry. 2008 Dec 12;32(8):1854-62. doi: 10.1016/j.pnpbp.2008.08.018. Epub 2008 Sep 5.

PMID:
18796324
18.

Database of normal Japanese gray matter volumes in the default mode network.

Goto M, Abe O, Aoki S, Takao H, Hayashi N, Miyati T, Mori H, Kunimatsu A, Ino K, Yano K, Ohtomo K.

J Magn Reson Imaging. 2014 Jan;39(1):132-42. doi: 10.1002/jmri.24139. Epub 2013 Jul 15.

PMID:
23857823
19.

Structural magnetic resonance imaging abnormalities in men with severe chronic schizophrenia and an early age at clinical onset.

Marsh L, Harris D, Lim KO, Beal M, Hoff AL, Minn K, Csernansky JG, DeMent S, Faustman WO, Sullivan EV, Pfefferbaum A.

Arch Gen Psychiatry. 1997 Dec;54(12):1104-12.

PMID:
9400346
20.

Brain morphology and schizophrenia. A magnetic resonance imaging study of limbic, prefrontal cortex, and caudate structures.

Breier A, Buchanan RW, Elkashef A, Munson RC, Kirkpatrick B, Gellad F.

Arch Gen Psychiatry. 1992 Dec;49(12):921-6.

PMID:
1449382
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