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Items: 1 to 20 of 87

1.

In vivo chlorine and sodium MRI of rat brain at 21.1 T.

Schepkin VD, Elumalai M, Kitchen JA, Qian C, Gor'kov PL, Brey WW.

MAGMA. 2014 Feb;27(1):63-70. doi: 10.1007/s10334-013-0387-2. Epub 2013 Jun 9.

PMID:
23748497
2.

Chlorine and sodium chemical shift imaging during acute stroke in a rat model at 9.4 Tesla.

Baier S, Krämer P, Grudzenski S, Fatar M, Kirsch S, Schad LR.

MAGMA. 2014 Feb;27(1):71-9. doi: 10.1007/s10334-013-0398-z. Epub 2013 Aug 10.

PMID:
23934160
3.

In vivo 35Cl MR imaging in humans: a feasibility study.

Nagel AM, Lehmann-Horn F, Weber MA, Jurkat-Rott K, Wolf MB, Radbruch A, Umathum R, Semmler W.

Radiology. 2014 May;271(2):585-95. doi: 10.1148/radiol.13131725. Epub 2014 Feb 1.

PMID:
24495267
4.

In vivo chlorine-35, sodium-23 and proton magnetic resonance imaging of the rat brain.

Kirsch S, Augath M, Seiffge D, Schilling L, Schad LR.

NMR Biomed. 2010 Jul;23(6):592-600. doi: 10.1002/nbm.1500.

PMID:
20232452
5.

In vivo magnetic resonance imaging of sodium and diffusion in rat glioma at 21.1 T.

Schepkin VD, Bejarano FC, Morgan T, Gower-Winter S, Ozambela M Jr, Levenson CW.

Magn Reson Med. 2012 Apr;67(4):1159-66. doi: 10.1002/mrm.23077. Epub 2011 Jul 11.

6.

Observation of bi-exponential T(1ρ) relaxation of in-vivo rat muscles at 3T.

Yuan J, Zhao F, Chan Q, Wang YX.

Acta Radiol. 2012 Jul;53(6):675-81. doi: 10.1258/ar.2012.120108. Epub 2012 Jul 3.

PMID:
22761346
7.

Detection of T(2) changes in an early mouse brain tumor.

Blasiak B, Tomanek B, Abulrob A, Iqbal U, Stanimirovic D, Albaghdadi H, Foniok T, Lun X, Forsyth P, Sutherland GR.

Magn Reson Imaging. 2010 Jul;28(6):784-9. doi: 10.1016/j.mri.2010.03.004. Epub 2010 Apr 15.

PMID:
20395097
8.

Dynamic contrast-enhanced susceptibility-weighted perfusion MRI (DSC-MRI) in a glioma model of the rat brain using a conventional receive-only surface coil with a inner diameter of 47 mm at a clinical 1.5 T scanner.

Ulmer S, Reeh M, Krause J, Herdegen T, Heldt-Feindt J, Jansen O, Rohr A.

J Neurosci Methods. 2008 Jul 30;172(2):168-72. doi: 10.1016/j.jneumeth.2008.04.022. Epub 2008 May 2.

PMID:
18538856
9.

30 Years of sodium/X-nuclei magnetic resonance imaging.

Konstandin S, Schad LR.

MAGMA. 2014 Feb;27(1):1-4. doi: 10.1007/s10334-013-0426-z. Epub 2014 Jan 22.

PMID:
24449020
10.

[MRI monitoring ultra-small superparamagnetic iron oxide (USPIO) particle labeling C6 rat glioma cells].

Zhang GX, Li YJ, Zhang F, Zhao JL, Li KA, Hu YS.

Zhonghua Yi Xue Za Zhi. 2007 Jan 23;87(4):228-32. Chinese.

PMID:
17425864
11.

Low-grade glioma: correlation of short echo time 1H-MR spectroscopy with 23Na MR imaging.

Bartha R, Megyesi JF, Watling CJ.

AJNR Am J Neuroradiol. 2008 Mar;29(3):464-70. doi: 10.3174/ajnr.A0854. Epub 2008 Jan 31.

12.

High resolution ultra high field magnetic resonance imaging of glioma microvascularity and hypoxia using ultra-small particles of iron oxide.

Christoforidis GA, Yang M, Kontzialis MS, Larson DG, Abduljalil A, Basso M, Yang W, Ray-Chaudhury A, Heverhagen J, Knopp MV, Barth RF.

Invest Radiol. 2009 Jul;44(7):375-83. doi: 10.1097/RLI.0b013e3181a8afea.

13.

Quantitative tissue sodium concentration mapping of the growth of focal cerebral tumors with sodium magnetic resonance imaging.

Thulborn KR, Davis D, Adams H, Gindin T, Zhou J.

Magn Reson Med. 1999 Feb;41(2):351-9.

PMID:
10080284
14.

Localization of experimental brain tumors in MRI by gadolinium porphyrin.

Bockhorst K, Els T, Kohno K, Hoehn-Berlage M.

Acta Neurochir Suppl (Wien). 1994;60:347-9.

PMID:
7976586
15.

In vivo sodium-23 MRI in brain tumors: evaluation of preliminary clinical experience.

Hashimoto T, Ikehira H, Fukuda H, Yamaura A, Watanabe O, Tateno Y, Tanaka R, Simon HE.

Am J Physiol Imaging. 1991;6(2):74-80.

PMID:
1867865
16.

Novel magnetic resonance imaging contrasts for monitoring response to gene therapy in rat glioma.

Gröhn OH, Valonen PK, Lehtimäki KK, Väisänen TH, Kettunen MI, Ylä-Herttuala S, Kauppinen RA, Garwood M.

Cancer Res. 2003 Nov 15;63(22):7571-4.

17.

Glioma morphology and tumor-induced vascular alterations revealed in seven rodent glioma models by in vivo magnetic resonance imaging and angiography.

Doblas S, He T, Saunders D, Pearson J, Hoyle J, Smith N, Lerner M, Towner RA.

J Magn Reson Imaging. 2010 Aug;32(2):267-75. doi: 10.1002/jmri.22263.

18.

In vivo micro-CT imaging of rat brain glioma: a comparison with 3T MRI and histology.

Engelhorn T, Eyupoglu IY, Schwarz MA, Karolczak M, Bruenner H, Struffert T, Kalender W, Doerfler A.

Neurosci Lett. 2009 Jul 10;458(1):28-31. doi: 10.1016/j.neulet.2009.04.033. Epub 2009 Apr 18.

PMID:
19379792
19.

A comparison of MR imaging of a mouse model of glioma at 0.2 T and 9.4 T.

Blasiak B, Volotovskyy V, Deng C, Foniok T, Tomanek B.

J Neurosci Methods. 2012 Feb 15;204(1):118-23. doi: 10.1016/j.jneumeth.2011.10.030. Epub 2011 Nov 10.

PMID:
22101142
20.

Measurement techniques for magnetic resonance imaging of fast relaxing nuclei.

Konstandin S, Nagel AM.

MAGMA. 2014 Feb;27(1):5-19. doi: 10.1007/s10334-013-0394-3. Epub 2013 Jul 24. Review.

PMID:
23881004
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