GGrantIndex
← Search

INTEGRATED SMALL ANIMAL IMAGING RESEARCH RESOURCE

$110,552P30FY2015CANIH

University Of Chicago, Chicago IL

Investigators

Linked publications, trials & patents

Paper 39661064Paper 39579248Paper 39438113Paper 39374047Paper 39270007Paper 39141403Paper 39114540Paper 39108474Paper 39071306Paper 39069988Paper 38883758Paper 38881356Paper 38849889Paper 38810242Paper 38771643Paper 38752924Paper 38735044Paper 38716867Paper 38691450Paper 38632339Paper 38561491Paper 38548994Paper 38536082Paper 38533736Paper 38496521Paper 38427437Paper 38421866Paper 38381713Paper 38294692Paper 38294689Paper 38293065Paper 38219706Paper 38213818Paper 38190286Paper 38186960Paper 38175791Paper 38155245Trial NCT02573363Trial NCT02573220Trial NCT02542202Trial NCT02540876Trial NCT02485535Trial NCT02420210Trial NCT02399371Trial NCT02389517Trial NCT02366819Trial NCT02333188Trial NCT02333162Trial NCT02275533Trial NCT02258659Trial NCT02213913Trial NCT02199665Trial NCT02122172Trial NCT02046421Trial NCT02012296Trial NCT01949740Trial NCT01861301Trial NCT01696955Trial NCT01576172Trial NCT01307618Trial NCT01281176Trial NCT01278615Trial NCT01267266Trial NCT01256385Trial NCT01208051Trial NCT01174264Trial NCT01122888Trial NCT01076543Trial NCT01064622Trial NCT00859937Trial NCT00720174Trial NCT00504153Trial NCT00436579Trial NCT00387335Trial NCT00381641Trial NCT00376688Trial NCT00369551Trial NCT00351975Trial NCT00303862Trial NCT00290472Trial NCT00265798Trial NCT00126542Trial NCT00095784Trial NCT00091026Trial NCT00087373Trial NCT00062075Trial NCT00058019Trial NCT00055913Trial NCT00039416Trial NCT00027703Trial NCT00023946Patent 7192711Patent 6870037Patent 6482934Patent 6387619Patent 6043216Patent 5916752Patent 5786344Patent 5698686Patent 5618917

Abstract

PROJECT SUMMARY (See instructions): Imaging small animal models of cancer has become an essential and integral part of cancer research. Evolving imaging technologies have also made available different but complementary imaging methods for assessing underlying biology and mechanisms, improving diagnosis and detection, and monitoring effects of cancer therapies. To take full advantage of this rapidly changing imaging landscape, and to provide a wider spectrum of imaging capabilities and services, a new Integrated Small Animal Imaging Research Resource (iSAlRR) has been established, with substantial resources committed by the UCCCC and the institution, to offer a broad spectrum of imaging modalities and techniques for in vivo imaging of small animals and ex vivo imaging of tissue/organ specimens with improved cost effectiveness and operational efficiency. This new Core Facility includes the following four complementary subcores: 1) the formal Magnetic Resonance Imaging and Spectroscopy (MRIS) Facility supported by the CCSG since 2002; 2) the formal Optical Imaging Core Facility (OICF), a developing UCCCC core during the current cycle; 3) a new microPET/SPECT/CT imaging facility; and 4) a reorganized Imaging Veterinary Technology support subcore (IVT) extracted from the formal MRIS Facility with an expanded mission of providing veterinary support to all animal imaging operations. The core leadership has been enhanced with new scientific co-directors and technical directors with expertise in molecular imaging. The MRIS replaced the old 4.7T magnet with a new 9.4T Bruker system and subsequently acquired additional gradient coils, amplifier, software upgrades to increase image resolution and usage efficiency. The OICF acquired a new Xenogen IVIS Spectrum system to be used outside the animal barrier, while placing the original Xenogen IVIS 200 system behind the barrier to expand the user access. The microPET/SPECT/CT imaging services and capabilities have been established with a Gamma Medica tri-modality pre-clinical imaging system. This new iSAIRR has already demonstrated its broad usage and applications in advancing research in breast, lung, prostate, ovarian, head and neck, pancreatic, colorectal, and brain cancer. Future expansion to enhance quantitative multi-modality imaging methodologies including those in ultrasound and EPRI (electron paramagnetic resonance imaging) will complement the existing MRIS, optical imaging, PET, SPECT, and CT services and capabilities.

View original record on NIH RePORTER →