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Cancer Risk Assessment, Early Detection, and Interception Research Program

$129,625P30FY2025CANIH

Mayo Clinic Rochester, Rochester MN

Investigators

Linked publications, trials & patents

Trial NCT06508463Trial NCT06387979Trial NCT06381154Trial NCT06353191Trial NCT06315595Trial NCT06271291Trial NCT06238648Trial NCT06207188Trial NCT06160206Trial NCT06115772Trial NCT06078709Trial NCT06075524Trial NCT06073951Trial NCT06058663Trial NCT05917145Trial NCT05910801Trial NCT05720624Trial NCT05717153Trial NCT05704283Trial NCT05703399Trial NCT05674123Trial NCT05653661Trial NCT05640765Trial NCT05612100Trial NCT05591092Trial NCT05584449Trial NCT05575440Trial NCT05560009Trial NCT05557877Trial NCT05556525Trial NCT05549661Trial NCT05547386Trial NCT05547347Trial NCT05541016Trial NCT05530759Trial NCT05526417Trial NCT05523154Trial NCT05518903Trial NCT05512767Trial NCT05507879Trial NCT05507541Trial NCT05497804Trial NCT05465954Trial NCT05465941Trial NCT05447923Trial NCT05447910Trial NCT05443971Trial NCT05438563Trial NCT05417867Trial NCT05416983Trial NCT05412953Trial NCT05411523Trial NCT05411497Trial NCT05410977Trial NCT05407038Trial NCT05407025Trial NCT05403580Trial NCT05399004Trial NCT05393713Trial NCT05392946Trial NCT05388877Trial NCT05388851Trial NCT05388058Trial NCT05388006Trial NCT05356897Trial NCT05294367Trial NCT05288062Trial NCT05269381Trial NCT05246670Trial NCT05232851Trial NCT05224271Trial NCT05222620Trial NCT05212428Trial NCT05199285Trial NCT05194293Trial NCT05176223Trial NCT05168163Trial NCT05130060Trial NCT05112627Trial NCT05112614Trial NCT05111314Trial NCT05077735Trial NCT05075980Trial NCT05053100Trial NCT05045066Trial NCT05033288Trial NCT05030298Trial NCT05018208Trial NCT05005182Trial NCT04999826Trial NCT04975516Trial NCT04967196Trial NCT04926948Trial NCT04925817Trial NCT04917744Trial NCT04906369Trial NCT04897009Trial NCT04895735Trial NCT04892277Trial NCT04892264

Abstract

CANCER RISK ASSESSMENT, EARLY DETECTION AND INTERCEPTION (REDI): ABSTRACT Cancer Risk Assessment, Early Detection, and Interception (REDI) is a new Mayo Clinic Comprehensive Cancer Center (MCCCC) Research Program formed in 2023 that aims to integrate extensive institutional strengths to drive pioneering transdisciplinary research in multimodal cancer risk assessment, early detection of cancer and pre-cancers, and development of novel approaches for interception. Along with the Cancer Prevention, Control, and Survivorship (CPCS) Program and collaborations with Community Outreach and Engagement (COE), REDI leverages prior achievements and unites investigators previously dispersed across various Research Programs and is inclusive of the three MCCCC sites. REDI uses novel approaches to prevention and interception, including therapeutics, vaccines, and ablative technologies, to complement the behavioral interventions of CPCS. Co-led by Ajit Goenka (MCR), Shaji Kumar (MCR), and Mark Sherman (MCF), REDI includes 36 members (25 MCR, 6 MCA, 5 MCF) from 11 departments with expertise in epidemiology, radiology, pathology, cancer genomics and precision medicine, data science, predictive modeling and artificial intelligence (AI), and community engagement. REDI members have $8.7M in annual peer-reviewed funding ($6.4M of which is from NCI) and published 1292 publications (24% intra-programmatic, 59% inter-programmatic, 48% external collaborations, and 36% with impact factor ≥10) over the last grant cycle. The goals of the program are informed by priorities identified by COE in our catchment areas. REDI has three aims: Aim 1 seeks to achieve Precision Risk Assessment among individuals and within populations by discovering novel risk factors, integrating them with known risk exposures, developing risk prediction models, and defining targetable mechanisms that mediate risks. This work leverages accomplishments in defining risks of genetic variants, radiological imaging, and the pathobiology of cancers in different populations and clinical contexts. Aim 2 focuses on the Detection of Clinically Significant Cancer Precursors and Early Cancers through discovery and validation of molecular markers and radiological imaging, testing a range of specimen types, employing novel collection methods, integrating techniques in genetics, radiology, and pathology and leveraging industrial partnerships. Aim 3 is devoted to Cancer Interception, focusing on strategies for precise and timely interventions, including chemoprevention, immunoprevention, and ablative therapies, with emphasis on high-risk populations and innovative delivery methods. The REDI Program has robust collaborations internally with other MCCCC Research Programs and Disease Groups, and externally through collaboration and leadership in national and international consortia. REDI will meet its goals through a strong focus on community engagement and meeting the needs of all populations; new recruitment; support of education, training and mentorship; growth of NCI funding; and integration of new biology and technology from risk assessment through interception. REDI is well poised to accelerate the science and clinical impact in cancer prevention and interception.

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