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Animal Imaging

$308,777P30FY2022CANIH

Sloan-Kettering Inst Can Research, New York NY

Investigators

Linked publications, trials & patents

Trial NCT03699631Trial NCT02595918Trial NCT02417701Trial NCT02219737Trial NCT02152995Trial NCT01979523Trial NCT01947023Trial NCT01902160Trial NCT01705340Trial NCT01643278Trial NCT01638546Trial NCT01587352Trial NCT01585805Trial NCT01326702Trial NCT01281865Trial NCT01196416Trial NCT01154452Trial NCT01143402Trial NCT01119599Trial NCT01051557Trial NCT01026623Trial NCT01016015Trial NCT00957905Trial NCT00866177Trial NCT00729157Trial NCT00639509Trial NCT00601692Trial NCT00589472Trial NCT00570401Trial NCT00567229Trial NCT00550628Trial NCT00541034Trial NCT00528450Trial NCT00522301Trial NCT00521014Trial NCT00519974Trial NCT00514254Trial NCT00498927Trial NCT00483678Trial NCT00474994Trial NCT00471679Trial NCT00471601Trial NCT00470574Trial NCT00470470Trial NCT00462982Trial NCT00462501Trial NCT00459875Trial NCT00458705Trial NCT00453310Trial NCT00450827Trial NCT00416351Trial NCT00404365Trial NCT00398138Trial NCT00397904Trial NCT00369174Trial NCT00354679Trial NCT00334893Trial NCT00324480Trial NCT00245102Trial NCT00104845Trial NCT00090337Trial NCT00089245Trial NCT00087009Trial NCT00072345Trial NCT00072319Trial NCT00070057Trial NCT00067015Trial NCT00062374Trial NCT00059891Trial NCT00058253Trial NCT00054132Trial NCT00046917Trial NCT00040898Trial NCT00040872Trial NCT00039286Trial NCT00037011Trial NCT00036933Trial NCT00028730Trial NCT00024258Trial NCT00023764Trial NCT00020891Trial NCT00016146Trial NCT00014534Trial NCT00014469Trial NCT00008294Trial NCT00008242Trial NCT00006044Trial NCT00004245Trial NCT00004066Trial NCT00003923Trial NCT00003819Trial NCT00003173Trial NCT00003023Trial NCT00002981Trial NCT00002930Trial NCT00002766Trial NCT00002738Trial NCT00002718Trial NCT00002663Trial NCT00002558

Abstract

ABSTRACT The Animal Imaging Core provides individual projects with non-invasive, high-resolution quantitative imaging- based capabilities for metabolic, phenotypic, and genetic characterization of tumors and their microenvironment, including in vivo trafficking of tumor cells for rodent models of human cancer. This is accomplished by monitoring of “directly-targeting” probes and of the expression of single-and multi-modality reporter genes using optical (bioluminescence and fluorescence), radionuclide (PET, SPECT, and autoradiography), MRI/MRS, CT, and US imaging. These non-invasive imaging techniques have long been established at MSK for small-animal imaging studies, are quantitative and thus readily adaptable to longitudinal studies. Co-localization of all animal imaging capabilites within the ZRC vivarium provides enhanced biosecurity and functionality and houses the Core’s Focus 120 microPET and Imveon microPET/microCT, Ivis Spectrum and Spectrum CT optical imaging systems NanoSPECT/CT Plu, and Vevo 2100 ultrasound system. The Ivis 100 optical imaging system has been upgraded to a Lumina II system and remains on the 12th floor of the Rockefeller Research Laboratory to provide ready access for investigators in that building. A new isocentric, image (CT)-guided microirradiator, the X-RAD 225Cx Image-Guided Biological Irradiator, for precise (down to 1-mm3) therapeutic irradiation of rodent tumors and other structures provides investigators with clinical-grade radiotherapy capability in terms of spatial accuracy and precision of dose delivery. The Core’s 7.0T 30-cm boreBruker NMR imaging and spectroscopy systems is within the ZRC Vivarium. The new PET insert (funded by RC2CA14897), which the Core recently received is compatible with the 7T magnet and is in current use. Additionally, the Core has an 11.7T vertical magnet and will shortly accept a new 9.4T magnet (funded by 1S10 OD023669) with an updated console (AV3) to replace the old 4.7T MR system) to be installed in this space as well. The Core also provides investigators with access to critical ancillary equipment and services such as a Fuji Film BAS-1800II phosphor-plate digital autoradiography system, a digital-camera- equipped Olympus B 201 fluorescence microscope with motorized stage, and a Microm HM500M cryostatic microtome and software such as SAAM II for linear and non-linear compartmental modeling, PMOD for voxel- based compartmental modeling/ parametric imaging, and OLINDA for internal radionuclide radiation dosimetry. The scientific value and cost-effectiveness of this state-of-the-art Animal Imaging Core is documented by the following (among other metrics): nearly 500 peer-reviewed Core-supported publications from 2013-2017 and 9 major instruments purchased with funding support provided by NIH and other Shared Instrumentation grants.

View original record on NIH RePORTER →