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Items: 1 to 20 of 68

1.

The volumetric relationship of white matter lesion and contrast-enhanced lesion in delayed radiation brain injury: an MRI-based study.

Wang YX, Huang H, Leung SF, Yeung DK, Chan YL, Poon WS.

Br J Neurosurg. 2013 Oct;27(5):662-7. doi: 10.3109/02688697.2013.772096. Epub 2013 Mar 4.

PMID:
23458559
2.

Evolution of radiation-induced brain injury: MR imaging-based study.

Wang YX, King AD, Zhou H, Leung SF, Abrigo J, Chan YL, Hu CW, Yeung DK, Ahuja AT.

Radiology. 2010 Jan;254(1):210-8. doi: 10.1148/radiol.09090428. Epub 2009 Dec 17.

PMID:
20019142
3.

Antidepressant use is related to larger white matter lesion volume in patients with symptomatic atherosclerotic disease: the SMART-MR study.

Grool AM, van der Graaf Y, Vincken KL, Witkamp TD, Mali WP, Geerlings MI.

J Neurol. 2013 Jan;260(1):197-206. doi: 10.1007/s00415-012-6616-1. Epub 2012 Aug 5.

PMID:
22865237
4.

Diffusion-weighted magnetic resonance imaging in radiation-induced cerebral necrosis. Apparent diffusion coefficient in lesion components.

Chan YL, Yeung DK, Leung SF, Chan PN.

J Comput Assist Tomogr. 2003 Sep-Oct;27(5):674-80.

PMID:
14501357
5.

Depressive symptoms, symptom dimensions, and white matter lesion volume in older adults: a longitudinal study.

Kirton JW, Resnick SM, Davatzikos C, Kraut MA, Dotson VM.

Am J Geriatr Psychiatry. 2014 Dec;22(12):1469-77. doi: 10.1016/j.jagp.2013.10.005. Epub 2013 Oct 11.

6.

White matter lesions in myotonic dystrophy type 1 co-locate with dilated perivascular spaces.

Renard D, Taieb G.

Clin Neurol Neurosurg. 2014 Nov;126:93-5. doi: 10.1016/j.clineuro.2014.08.016. Epub 2014 Aug 20.

PMID:
25218663
7.

Association of white-matter lesions with brain atrophy markers: the three-city Dijon MRI study.

Godin O, Maillard P, Crivello F, Alpérovitch A, Mazoyer B, Tzourio C, Dufouil C.

Cerebrovasc Dis. 2009;28(2):177-84. doi: 10.1159/000226117. Epub 2009 Jun 25.

PMID:
19556771
8.

Late radiation injury to the temporal lobes: morphologic evaluation at MR imaging.

Chan YL, Leung SF, King AD, Choi PH, Metreweli C.

Radiology. 1999 Dec;213(3):800-7.

PMID:
10580956
9.

Decreased white matter lesion volume and improved cognitive function after liver transplantation.

Rovira A, Mínguez B, Aymerich FX, Jacas C, Huerga E, Córdoba J, Alonso J.

Hepatology. 2007 Nov;46(5):1485-90.

PMID:
17929307
10.

Impact of radionecrosis on cognitive dysfunction in patients after radiotherapy for nasopharyngeal carcinoma.

Cheung MC, Chan AS, Law SC, Chan JH, Tse VK.

Cancer. 2003 Apr 15;97(8):2019-26.

11.

Oxidative stress and other risk factors for white matter lesions in chronic hemodialysis patients.

Muñoz-Cortés M, Cabré C, Villa D, Vives JP, Arruche M, Soler J, Compte MT, Aguilera J, Jariod M, Romeu M, Giralt M, Martinez-Vea A.

Clin Nephrol. 2013 Sep;80(3):187-97. doi: 10.5414/CN107943.

PMID:
23743154
12.

White matter lesion volumes and caudate volumes in late-life depression.

Hannestad J, Taylor WD, McQuoid DR, Payne ME, Krishnan KR, Steffens DC, Macfall JR.

Int J Geriatr Psychiatry. 2006 Dec;21(12):1193-8.

PMID:
16955447
13.

Effects of statins on the progression of cerebral white matter lesion: Post hoc analysis of the ROCAS (Regression of Cerebral Artery Stenosis) study.

Mok VC, Lam WW, Fan YH, Wong A, Ng PW, Tsoi TH, Yeung V, Wong KS.

J Neurol. 2009 May;256(5):750-7. doi: 10.1007/s00415-009-5008-7. Epub 2009 Mar 1.

PMID:
19252811
14.

Measuring progression of cerebral white matter lesions on MRI: visual rating and volumetrics.

Prins ND, van Straaten EC, van Dijk EJ, Simoni M, van Schijndel RA, Vrooman HA, Koudstaal PJ, Scheltens P, Breteler MM, Barkhof F.

Neurology. 2004 May 11;62(9):1533-9.

PMID:
15136677
15.

Neuroimaging predictors of cognitive impairment in confluent white matter lesion: volumetric analyses of 99 brain regions.

Mok VC, Liu T, Lam WW, Wong A, Hu X, Guo L, Chen XY, Tang WK, Wong KS, Wong S.

Dement Geriatr Cogn Disord. 2008;25(1):67-73. Epub 2007 Nov 28.

16.

Antihypertensive treatment and change in blood pressure are associated with the progression of white matter lesion volumes: the Three-City (3C)-Dijon Magnetic Resonance Imaging Study.

Godin O, Tzourio C, Maillard P, Mazoyer B, Dufouil C.

Circulation. 2011 Jan 25;123(3):266-73. doi: 10.1161/CIRCULATIONAHA.110.961052. Epub 2011 Jan 10.

17.

Radiation-induced changes of brain tissue after radiosurgery in patients with arteriovenous malformations: correlation with dose distribution parameters.

Levegrün S, Hof H, Essig M, Schlegel W, Debus J.

Int J Radiat Oncol Biol Phys. 2004 Jul 1;59(3):796-808.

PMID:
15183483
18.

Association of cardiorespiratory fitness and morphological brain changes in the elderly: results of the Austrian Stroke Prevention Study.

Sen A, Gider P, Cavalieri M, Freudenberger P, Farzi A, Schallert M, Reichmann F, Watzinger N, Zweiker R, Schmidt R, Schmidt H.

Neurodegener Dis. 2012;10(1-4):135-7. doi: 10.1159/000334760. Epub 2012 Jan 21.

19.

Automated segmentation and measurement of global white matter lesion volume in patients with multiple sclerosis.

Alfano B, Brunetti A, Larobina M, Quarantelli M, Tedeschi E, Ciarmiello A, Covelli EM, Salvatore M.

J Magn Reson Imaging. 2000 Dec;12(6):799-807.

PMID:
11105017
20.

Total cerebral blood flow and total brain perfusion in the general population: the Rotterdam Scan Study.

Vernooij MW, van der Lugt A, Ikram MA, Wielopolski PA, Vrooman HA, Hofman A, Krestin GP, Breteler MM.

J Cereb Blood Flow Metab. 2008 Feb;28(2):412-9. Epub 2007 Jul 11.

PMID:
17622253

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