|1.||Lahrech, Hana: 2 articles (03/2012 - 05/2008)|
|2.||Farion, Regine: 1 article (03/2012)|
|3.||Perles-Barbacaru, Adriana T: 1 article (03/2012)|
|4.||van der Sanden, Boudewijn P J: 1 article (03/2012)|
|5.||Debouzy, Jean-Claude: 1 article (05/2008)|
|6.||Fries, Pascal H: 1 article (05/2008)|
|7.||Aous, Soâd: 1 article (05/2008)|
|8.||Gadelle, Andrée: 1 article (05/2008)|
|9.||Perles-Barbacaru, Adriana-Teodora: 1 article (05/2008)|
|10.||Le Bas, Jean-François: 1 article (05/2008)|
03/01/2012 - "First, the technique is evaluated on simulated data and the healthy rat brain vasculature and is then applied to the same C6 tumor vasculature previously quantified by RSST(1)-MRI with Gd-ACX. "
05/01/2008 - "This result shows the absence of Gd-ACX extravasation into the tumor tissue and its confinement to the vascular space. "
05/01/2008 - "After biocompatibility and relaxivity experiments, in vivo experiments on rats were performed on a C6 tumor model with 0.05 mmol Gd-ACX/kg (<1/10 of the median lethal dose) injected at a 25 mmol/L concentration, inducing neither nephrotoxicity nor hemolysis. "
03/01/2012 - "Contrary to Gd-DOTA, which leaks out of the tumor vasculature, Gd-ACX was shown to remain vascular in the tumor tissue allowing quantification of the tumor BVf. "
05/01/2008 - "Fractional CBV values were found similar to Gd-ACX and Gd-DOTA in healthy brain tissue and in the contralateral hemisphere of tumor-bearing rats, whereas only Gd-ACX was appropriate for CBV quantification in tumor regions."
|3.||Brain Neoplasms (Brain Tumor)
03/01/2012 - "To assess angiogenesis noninvasively in a C6 rat brain tumor model, the rapid-steady-state-T(1) (RSST(1)) magnetic resonance imaging (MRI) method was used for microvascular blood volume fraction (BVf) quantification with a novel contrast agent gadolinium per (3,6 anhydro) α-cyclodextrin (Gd-ACX). "
|1.||gadolinium 1,4,7,10- tetraazacyclododecane- N,N',N'',N'''- tetraacetate