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Preclinical Imaging

$137,592P30FY2012CANIH

Roswell Park Cancer Institute Corp, Buffalo NY

Investigators

Linked publications, trials & patents

Trial NCT07082270Trial NCT06202066Trial NCT05589844Trial NCT05338905Trial NCT05292521Trial NCT05231122Trial NCT04607291Trial NCT04533542Trial NCT04530812Trial NCT04526587Trial NCT04379518Trial NCT04358315Trial NCT04348747Trial NCT04298606Trial NCT04290962Trial NCT04269213Trial NCT04231539Trial NCT04207190Trial NCT04119830Trial NCT04110249Trial NCT04109924Trial NCT04093323Trial NCT04081389Trial NCT04073745Trial NCT04068649Trial NCT04067830Trial NCT04060446Trial NCT04032418Trial NCT04000581Trial NCT03965234Trial NCT03935347Trial NCT03899987Trial NCT03897270Trial NCT03895918Trial NCT03881735Trial NCT03880422Trial NCT03879694Trial NCT03865472Trial NCT03851081Trial NCT03793907Trial NCT03789877Trial NCT03751449Trial NCT03751436Trial NCT03736720Trial NCT03735589Trial NCT03735095Trial NCT03727789Trial NCT03727061Trial NCT03709550Trial NCT03691376Trial NCT03688945Trial NCT03685695Trial NCT03683147Trial NCT03680235Trial NCT03679585Trial NCT03679559Trial NCT03678350Trial NCT03630601Trial NCT03574792Trial NCT03457142Trial NCT03403634Trial NCT03384836Trial NCT03358719Trial NCT03348748Trial NCT03333486Trial NCT03297489Trial NCT03211416Trial NCT03206047Trial NCT03192397Trial NCT03090412Trial NCT03017131Trial NCT03011736Trial NCT02965976Trial NCT02955290Trial NCT02953457Trial NCT02947386Trial NCT02877641Trial NCT02857374Trial NCT02853318Trial NCT02833506Trial NCT02713373Trial NCT02650986Trial NCT02575885Trial NCT02575508Trial NCT02531906Trial NCT02474095Trial NCT02455557Trial NCT02452463Trial NCT02414724Trial NCT02399215Trial NCT02393755Trial NCT02334865Trial NCT02287727Trial NCT02227940Trial NCT02170389Trial NCT02166905Trial NCT02159950Trial NCT02119728Trial NCT02100254Trial NCT02072486

Abstract

The goal of RPCI's Preclinical Imaging Resource (PIR) is to advance small animal imaging methodology at the molecular, cellular and biosystem level. This is accomplished by facilitating development of novel basic science and clinical research, promoting advances in biotechnology, fostering development of new Pharmaceuticals and assessing in vivo drug delivery and therapeutic efficacy. The PIR currently offers customized magnetic resonance (MR) protocols designed to answer specific questions related to: (i) cancer detection, (ii) tumor vascular function, (iii) therapeutic response, (iv) animal phenotyping and (v) pharmacokinetic /pharmacodynamic modeling. In addition, the Resource provides whole-body fluorescence imaging of live animals and facilitates collaborative microPET research in conjunction with the University at Buffalo (UB). The aim is to provide readily available access and training to noninvasive, state-of-the-art in vivo imaging technologies at an affordable cost to CCSG members. The PIR is available 24 hours/day, 7 days/week. Three general types of MR services are offered: (a) instrumentation and expertise to acquire high resolution (< 50 urn2 in-plane spatial and < 100 ms temporal) heteronuclear imaging and spectroscopy data, (b) expertise and software for quantitative image analysis and (c) visualization of 2D and 3D data sets for probing structural/functional relationships. MR instrumentation includes a 4.7 T wide bore (33 cm) magnet incorporating Bruker's Avance platform with ParaVision¿ 4.0 OS, shielded Accustar gradients and digital system electronics. The MR system represents the highest magnetic field strength scanner available within 200 miles of RPCI. Recently expanded services include whole body in vivo optical and multispectral fluorescence imaging. Intravital Microscopy (IVM) using a MR compatible window chamber is also available for fluorescence imaging with MR validation. Data acquisition, hardcopy, display, qualitative/quantitative analysis and 3D renderings of digitally acquired data sets are offered as chargeback services. The Resource is used by five programs and 99% of users are CCSG members. $65,218 in CCSG support is requested, representing 12% of the total operating budget.

View original record on NIH RePORTER →