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Cancer Imaging Research Program

$46,304P30FY2018CANIH

Case Western Reserve University, Cleveland OH

Investigators

Linked publications, trials & patents

Trial NCT05340673Trial NCT05198830Trial NCT02590107Trial NCT02535325Trial NCT02451124Trial NCT02419846Trial NCT02417948Trial NCT02392377Trial NCT02388932Trial NCT02383433Trial NCT02375477Trial NCT02354326Trial NCT02345460Trial NCT02342730Trial NCT02337465Trial NCT02327390Trial NCT02319889Trial NCT02307474Trial NCT02287636Trial NCT02252393Trial NCT02181478Trial NCT02179762Trial NCT02163317Trial NCT02158767Trial NCT02153450Trial NCT02135562Trial NCT02131207Trial NCT02129582Trial NCT02129569Trial NCT02129517Trial NCT02129218Trial NCT02128373Trial NCT02108587Trial NCT02100423Trial NCT02084147Trial NCT02082405Trial NCT02081794Trial NCT02079155Trial NCT02073097Trial NCT02073045Trial NCT02071901Trial NCT02070458Trial NCT02070419Trial NCT02055586Trial NCT02037048Trial NCT01973062Trial NCT01959490Trial NCT01959477Trial NCT01954784Trial NCT01954732Trial NCT01951885Trial NCT01939028Trial NCT01928485Trial NCT01894061Trial NCT01408043Trial NCT00991991Trial NCT00970684Trial NCT00961220Trial NCT00956475Trial NCT00952939Trial NCT00949247Trial NCT00945061Trial NCT00941720Trial NCT00941070Trial NCT00939510Trial NCT00918892Trial NCT00918788Trial NCT00918658Trial NCT00918216Trial NCT00910039Trial NCT00909662Trial NCT00908739Trial NCT00908141Trial NCT00907699Trial NCT00905086Trial NCT00900133Trial NCT00899158Trial NCT00899132Trial NCT00898573Trial NCT00898274Trial NCT00897143Trial NCT00892385Trial NCT00873600Trial NCT00873002Trial NCT00866320Trial NCT00856115Trial NCT00853021Trial NCT00842452Trial NCT00809185Trial NCT00796978Trial NCT00795678Trial NCT00769951Trial NCT00769249Trial NCT00752323Trial NCT00740961Trial NCT00736216Trial NCT00735514Trial NCT00733252Trial NCT00732745Trial NCT00732173

Abstract

CANCER IMAGING (CI) RESEARCH PROGRAM PROJECT SUMMARY/ABSTRACT The Cancer Imaging (CI) Program is a transdisciplinary program that integrates imaging engineering research with the study of cancer biology. The goals of this program are to build novel imaging technologies for discerning mechanisms of cancer biology, designing new targeted therapies, and developing innovative imaging modalities for improving patient care. The CI program covers a continuum of imaging research reaching from ?molecules to mice to man? that forms the basis for the following three Specific Aims: (1) Utilize imaging agents to study cancer pathogenesis and develop cancer-targeting therapeutics, (2) Codify quantifiable imaging metrics to study cancer biology and improve cancer treatments, and (3) Translate novel imaging methodologies to patient care. These aims reflect major working groups and initiatives that actively engage researchers from basic biology, medicine, chemistry, physics, and engineering backgrounds with other Cancer Center investigators through inter-programmatic collaborations that result in highly impactful advances in imaging and nanomedicine. Extensive use of an array of shared resources, in particular Imaging, Athymic, Cytometry, and Biostatistics facilitate all aspects of member discoveries. Under the leadership of James Basilion (Co-Leader) and Zhenghong Lee (Co-Leader) the CI Program has 29 members including 19 full, 2 associate, and 8 clinical members. Members represent 9 departments, giving rise to a total of $8.1M in research grant funding (annual direct costs), of which $7.3M is peer-reviewed and $4.0M is NCI-funded. Between 2012 and 2016, CI program members published 639 publications. Cancer and program related publications included 27% inter-programmatic, 25% intra-programmatic, 10% inter- and intra- programmatic and 7% that involved collaborations with another Cancer Center. This highly effective program has made major advances in imaging and nanomedicine. Examples include: the discovery and international distribution of a novel quantitative MRI imaging analysis tool based on random magnetic wave generation (MR fingerprinting); development of novel nanoparticle diagnostics and therapeutics, including plant derived viral particles to stimulate host immune rejection of tumors that is now in clinical studies in dogs with melanoma; generation of a fibronectin-targeting agent for detection of breast cancer micrometastases; and the invention of a multimodal in vivo imaging method for following the disposition of nanoparticles on a microscopic scale as well as visualizing the microvasculature of tumors in live animals.

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