Liquid Biopsy Consortium

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Liquid Biopsy: A new, noninvasive technique that can detect disease biomarkers in blood, urine, and sputum.

In the era of personalized medicine, having minimally invasive methods to determine and follow the molecular composition and characterization of a patient’s tumor over time will help gain a broader understanding of the disease. One such approach is liquid biopsy : measurements to characterize the molecular level of the tumor and monitor genetic changes over time using repeat sampling of biofluids. Liquid biopsy generally refers to detecting and measuring circulating tumor cells (CTC), circulating tumor DNA (ctDNA), circulating exosomes and other analytes in body fluids, such as serum, plasma, urine, etc.

About the Liquid Biopsy Consortium

The Liquid Biopsy Consortium is an Academic/Industrial Partnership program designed to advance and validate Liquid Biopsy technologies specifically targeted for early stage cancer detection. The goal is to test body fluids such as blood, urine, saliva, stool, and sputum from patients suspected to have early stage cancer as well as those at high risk of developing cancer. The Liquid Biopsy Consortium is also working on methods to distinguish cancer from benign disease; or aggressive from indolent cancers. Projects from funded sites focus on the development of new tools/methods/assays and/or validations of existing technologies/methods involving the capture of DNA, RNA, or exosomes in circulating body fluids.

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Grantee Details

PI Name Sort descending	PI Organization	Title	Grant Number	Program Official
Winger, Joseph Giles	Duke University United States	Engage: A Randomized Controlled Trial Testing the Efficacy of a Telehealth-Delivered Psychosocial Intervention to Decrease Symptom Interference in Patients with Advanced Cancer	5R01CA291768-02	Brennan Streck, Ph.D., RN, M.P.H.
Winger, Joseph Giles	Duke University United States	Engage: A Randomized Controlled Trial Testing the Efficacy of a Telehealth-Delivered Psychosocial Intervention to Decrease Symptom Interference in Patients with Advanced Cancer	5R01CA291768-02	Brennan Streck, Ph.D., RN, M.P.H.
Winger, Joseph Giles	Duke University United States	Engage: A Randomized Controlled Trial Testing the Efficacy of a Telehealth-Delivered Psychosocial Intervention to Decrease Symptom Interference in Patients with Advanced Cancer	5R01CA291768-02	Brennan Streck, Ph.D., RN, M.P.H.
Winters-Stone, Kerri M	Oregon Health & Science University United States	Patterns and predictors of symptoms, falls, and functioning across treatment and recovery in patients treated with neurotoxic chemotherapy for cancer	5R01CA248059-05	Goli Samimi, Ph.D., M.P.H.
Winters-Stone, Kerri M	Oregon Health & Science University United States	Patterns and predictors of symptoms, falls, and functioning across treatment and recovery in patients treated with neurotoxic chemotherapy for cancer	5R01CA248059-05	Goli Samimi, Ph.D., M.P.H.
Wolpin, Brian Matthew	Dana-Farber Cancer Inst United States	Altered metabolism and machine learning for pancreatic cancer early detection	5U01CA210171-09	Matthew Young, Ph.D.
Wong, David T	University Of California Los Angeles United States	EFIRM Liquid Biopsy Research Laboratory: Early Lung Cancer Assessment	4U01CA233370-08	Nicholas Hodges, Ph.D.
Wright, Alexi A	Dana-Farber Cancer Inst United States	Randomized trial of REVITALIZE: A telehealth intervention to reduce fatigue interference among adults with advanced ovarian cancer on PARP inhibitors	5R01CA289547-02	Goli Samimi, Ph.D., M.P.H.
Wright, Alexi A	Dana-Farber Cancer Inst United States	Randomized trial of REVITALIZE: A telehealth intervention to reduce fatigue interference among adults with advanced ovarian cancer on PARP inhibitors	5R01CA289547-02	Goli Samimi, Ph.D., M.P.H.
Wu, Yun	State University Of New York At Buffalo United States	Lung Cancer Early Detection and Immunotherapy Response Prediction and Monitoring with an Exo-PROS Liquid Biopsy Assay	4R01CA272827-04	Christos Patriotis, Ph.D., M.Sc.
Xiao, Yi	University Of Tx Md Anderson Can Ctr United States	Exploring new strategy for breast cancer immunoprevention by targeting histamine receptor H1	5R21CA286318-02	Anda Vlad, M.D., Ph.D.
Xu, Xiangxi Mike	University Of Miami School Of Medicine United States	Countering microtubule stabilization within hair follicles in ovarian cancer chemotherapy	5R01CA286527-02	Rachel Altshuler, Ph.D.
Xu, Xiangxi Mike	University Of Miami School Of Medicine United States	Countering microtubule stabilization within hair follicles in ovarian cancer chemotherapy	5R01CA286527-02	Rachel Altshuler, Ph.D.
Xu, Chunhui	Emory University United States	High-throughput assessment of chemotherapy-induced cardiotoxicity in 3D human cardiomyocytes	1R21CA285254-01A1	Eileen Dimond, R.N., M.S.
Xu, Chunhui	Emory University United States	High-throughput assessment of chemotherapy-induced cardiotoxicity in 3D human cardiomyocytes	1R21CA285254-01A1	Eileen Dimond, R.N., M.S.

Program Contact(s)

Sudhir Srivastava, Ph.D., M.P.H.
Email: sudhir.srivastava@nih.gov

Christos Patriotis, Ph.D.
Email: christos.patriotis@nih.gov

Nicholas A. Hodges, Ph.D.
Email: nick.hodges@nih.gov

Guillermo Marquez, Ph.D.
Email: guillermo.marquez@nih.gov