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Cancer Molecular Imaging

$139,319P30FY2013CANIH

University Of California Los Angeles, Los Angeles CA

Investigators

Linked publications, trials & patents

Trial NCT07339085Trial NCT07276438Trial NCT07242365Trial NCT06650163Trial NCT06568016Trial NCT06113016Trial NCT05595499Trial NCT04205838Trial NCT04201873Trial NCT04185311Trial NCT04119024Trial NCT04106362Trial NCT04069923Trial NCT04069910Trial NCT04050215Trial NCT04007029Trial NCT03996850Trial NCT03970252Trial NCT03953157Trial NCT03904251Trial NCT03902951Trial NCT03892720Trial NCT03830918Trial NCT03825796Trial NCT03745690Trial NCT03732950Trial NCT03732352Trial NCT03672773Trial NCT03623854Trial NCT03618134Trial NCT03603223Trial NCT03601455Trial NCT03596710Trial NCT03582774Trial NCT03582475Trial NCT03541850Trial NCT03515577Trial NCT03506802Trial NCT03425461Trial NCT03411070Trial NCT03368547Trial NCT03319342Trial NCT03240861Trial NCT03202472Trial NCT03128619Trial NCT03025139Trial NCT03014804Trial NCT02940262Trial NCT02928510Trial NCT02925351Trial NCT02919332Trial NCT02902757Trial NCT02888301Trial NCT02881242Trial NCT02880020Trial NCT02879994Trial NCT02830165Trial NCT02816879Trial NCT02775292Trial NCT02756130Trial NCT02701153Trial NCT02688348Trial NCT02683200Trial NCT02672033Trial NCT02597894Trial NCT02575027Trial NCT02451865Trial NCT02336763Trial NCT02310594Trial NCT02296229Trial NCT02280161Trial NCT02263898Trial NCT02176902Trial NCT02070406Trial NCT02049593Trial NCT02048020Trial NCT02015559Trial NCT01912820Trial NCT01013285Trial NCT01005472Trial NCT00999557Trial NCT00998010Trial NCT00985192Trial NCT00955591Trial NCT00882765Trial NCT00880542Trial NCT00769470Trial NCT00706615Trial NCT00685516Trial NCT00616642Trial NCT00612066Trial NCT00601289Trial NCT00601094Trial NCT00521209Trial NCT00509431Trial NCT00471887Trial NCT00450567Trial NCT00444223Trial NCT00352001Trial NCT00349167

Abstract

The Cancer Molecular Imaging Program Area is composed of 18 members, spanning 7 Departments within UCLA. In the past competing cycle, investigators from this Program authored 265 publications, of which 232 (88%) were inter-programmatic and 89 (34%) intra-programmatic. 71 (27%) were placed in high-impact ournals. Nine members of this Program Area used 6 out of the 8 Shared Resources that are currently funded by the JCCC. During the current funding year, peer-reviewed funding totaled $4.4 million in total costs, including $3.8 million from the National Cancer Institute. As with other Program Areas, JCCC fosters a number of interactive activities and many of the Shared Resources that support investigators in the CMI Program Area. During the current grant cycle, funds from the JCCC in the form of CCSG Developmental Funds, institutional support and philanthropic gifts to the CMI Program Area total $317,584. These funds supported Seed Grants, recruitment/retention & Program Area Leadership support. Four of the Program Area Members were the recipients of JCCC support. Molecular imaging is a powerful set of approaches to reveal functional changes in living subjects that has enabled compelling insights into human health and disease. The newly proposed JCCC Cancer Molecular Imaging Program Area brings together investigators with a common focus on employing molecular imaging tools to investigate cancer in living individuals, from laboratory rodent models to patients. The efforts of CMI investigators are organized around four main themes. 1) Development of instrumentation and analytical tools. Moving molecular imaging forward requires constant development and improvement in instrumentation to provide higher resolution, sensitivity, and quantitative measurement of biological molecules and processes in vivo. 2) Development of novel molecular imaging approaches. CMI Program Area members have been leaders in the field of molecular imaging, with significant contributions in novel tracers, imaging gene expression using reporter genes, developing animal models to exploit the advantages of non-invasive, repeated and quantitative imaging, and in development of multimodality imaging instrumentation and analytic procedures. These tools are employed in the study of cancer initiation and progression, metastatic spread, and response to treatment, in preclinical models. 3) Imaging immune responses and response to immunotherapy. An important focus of the CMI Program Area is to develop the tools to monitor immune responses and follow the effects of cancer immunotherapy in living individuals. 4) Translation of imaging technologies to clinical contexts for cancer patients. Ultimately, the goal of the CMI Program Area is to improve the understanding, detection, and treatment of cancer. CMI Program Area members pursue translational goals that include both determining the best use of currently available molecular tracers in the clinic (e.g., FDG-PET, FLT-PET) as well as translating new molecular tracers through clinical evaluation.

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