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27 Risk, Detection and Outcomes

$18,707P30FY2022CANIH

University Of Tx Md Anderson Can Ctr, Houston TX

Investigators

Linked publications, trials & patents

Trial NCT07407920Trial NCT07349641Trial NCT06651580Trial NCT05681026Trial NCT05223036Trial NCT05078866Trial NCT05057312Trial NCT05054296Trial NCT05044546Trial NCT05023967Trial NCT05011045Trial NCT04875728Trial NCT04870645Trial NCT04810091Trial NCT04751422Trial NCT04740164Trial NCT04668300Trial NCT04615013Trial NCT04505267Trial NCT04484909Trial NCT04483349Trial NCT04481204Trial NCT04474301Trial NCT04458610Trial NCT04447222Trial NCT04435691Trial NCT04430725Trial NCT04407247Trial NCT04373720Trial NCT04317781Trial NCT04311723Trial NCT04310826Trial NCT04310397Trial NCT04265430Trial NCT04257045Trial NCT04256941Trial NCT04239989Trial NCT04239976Trial NCT04239157Trial NCT04236882Trial NCT04228042Trial NCT04220827Trial NCT04220775Trial NCT04220008Trial NCT04219969Trial NCT04219904Trial NCT04216732Trial NCT04216563Trial NCT04216524Trial NCT04216472Trial NCT04215029Trial NCT04200534Trial NCT04199026Trial NCT04196972Trial NCT04189783Trial NCT04189770Trial NCT04189757Trial NCT04188418Trial NCT04188405Trial NCT04186884Trial NCT04186832Trial NCT04185337Trial NCT04181463Trial NCT04171622Trial NCT04171219Trial NCT04171037Trial NCT04169763Trial NCT04169737Trial NCT04169542Trial NCT04160052Trial NCT04151082Trial NCT04150939Trial NCT04140487Trial NCT04135326Trial NCT04134208Trial NCT04132843Trial NCT04132505Trial NCT04132440Trial NCT04129138Trial NCT04128748Trial NCT04128501Trial NCT04127721Trial NCT04125914Trial NCT04119037Trial NCT04106843Trial NCT04106245Trial NCT04090619Trial NCT04090567Trial NCT04087057Trial NCT04083378Trial NCT04082572Trial NCT04074746Trial NCT04066894Trial NCT04062305Trial NCT04062266Trial NCT04058964Trial NCT04054245Trial NCT04054167Trial NCT04054154Trial NCT04053517

Abstract

PROJECT SUMMARY/ABSTRACT The newly-formed Risk, Detection and Outcomes (RDO) Program has 49 members (47 primary, 2 associate) from 19 departments and is led by Drs. Paul Scheet (human genetics, computational biology) with co-leaders Sanjay Shete (biostatistics, genetic epidemiology, population health), Samir Hanash (early detection, proteomics), and Sharon Giordano (health care delivery, outcomes). The major scientific goal of the RDO Program is to reduce the cancer burden in the population and improve quality of life in survivors through innovative research aimed at optimizing cancer risk assessment, screening, early detection, and treatment- associated outcomes from diagnosis through survivorship, with an ultimate goal of informing successful interventions (e.g., in the Cancer Prevention Program). To achieve this goal, the RDO Program is organized into 3 specific aims focusing on 1) Cancer Etiology, 2) Early Detection, and 3) Care Delivery and Outcomes. Aim 1: To discover genetic, behavioral, and environmental factors for cancer initiation. Aim 2: To perform biomarker discovery for personalized risk assessment and early detection. Aim 3: To identify biological and social factors influencing care delivery and patient outcomes. The annual direct peer-reviewed funding of the RDO Program totals $11.4M, including 4 U01s, of which $5.4M (47%) is from the NCI. Over the past 6 years, program members have authored 1211 published peer-reviewed papers, with 373 (31%) intra-programmatic, 594 (49%) inter- programmatic, and 877 (72%) external collaborations. Forty-five percent of articles appeared in journals with IF >5, and 14% appeared in journals with IF >10, including Nat Biotechnol, Nat Genet and J Clin Oncol. Program members used all 14 shared resources. Over this period, the RDO Program has had several major accomplishments. First, in whole-genome genetic epidemiology studies, we identified genetic variants that predispose to disease initiation, affect outcomes, or predict adverse responses to therapy. In multiple whole- exome next-generation sequencing studies, the first of their kind, we are powered to discover variants of higher, intermediate cancer risk. We have also surveyed genomic changes in precancerous tissues, shedding light on early disease pathology. Second, we have uncovered novel blood-based biomarkers for early detection through state-of-the-art profiling technologies. Key hits identified from proteomics and metabolomics promise to complement low-dose CT scans in individuals at high risk for lung cancer. Third, as leaders in a consortium of Texas academic institutions and the Texas Cancer Registry, we have studied patterns of screening, diagnosis, treatment (e.g., chemotherapy and associated decision-making), and follow-up to impact state-wide policy. For all of these endeavors, we continue to develop and enhance unique cohorts, including Cancer Patients and Survivors, Mexican American, Premalignant Genome Atlas, Childhood Cancer Survivors, and organ-specific cohorts of the lung, breast, and ovary.

View original record on NIH RePORTER →