Screening

Combined Protein and miRNA Profiles for the Early Detection of Lung Cancer

Early Detection Research Award
Protect Your Lungs/ LUNGevity Foundation Research Grant; funded in part by A Breath of Hope Foundation
Steven M. Dubinett, MD
David Geffen School of Medicine at UCLA
Los Angeles
CA
Krysan Kostyantyn, PhD
David Geffen School of Medicine at UCLA
Los Angeles
CA

Lung cancer cells produce different types of proteins and RNA molecules that circulate in the blood. Dr. Steven Dubinett and his team have discovered 17 unique miRNAs in the blood of lung cancer patients and other high-risk individuals, such as smokers. Blood of healthy and low-risk people do not have these miRNAs. They are developing an miRNA-based blood test to predict which high-risk individual might develop lung cancer.

Serum Biomarkers for the Early Detection of Lung Cancer

Early Detection Research Award
This grant was funded in part by Thomas G. Labrecque Foundation
Edward Patz, MD
Duke University Medical Center
Durham
NC
Michael Campa, PhD
Duke University Medical Center
Durham
NC
James Herndon
Duke University Medical Center
Durham
NC

CT scans often detect the presence of a lung nodule. Most of these nodules are benign. Dr. Edward Patz and his colleagues have discovered 25 auto-antibodies (protein molecules) found in the blood of non-small cell lung cancer patients. They are developing a simple, blood-based test to confirm these findings in larger groups of these patients.

A system biology approach to biomarkers for early detection of lung cancer

Early Detection Research Award
This grant was funded in part by Thomas G. Labrecque Foundation
Suzanne Miyamoto, PhD
University of California Davis
Sacramento
CA
Oliver Fiehn, PhD
University of California Davis
Sacramento
CA
Karen Kelly, MD
University of California Davis
Sacramento
CA

Biomarker-based tests that complement CT will make it easier to detect lung cancer early. These tests should also be useful for both high-risk (current and former smokers) and low-risk (never-smokers) populations. Dr. Suzanne Miyamoto and her team are studying different protein, fat, and sugar molecules made by lung cancer cells. These different molecules can also be found in the blood of lung cancer patients. Their ultimate goal is to develop a blood test for the early detection of lung cancer.

Biomarkers to improve clinical assessment of indeterminate lung nodules

Early Detection Research Award
York Miller, MD
University of Colorado Denver, AMC and DC
Aurora
CO
Wilbur Franklin, MD
University of Colorado Denver, AMC and DC
Aurora
CO
Kavita Garg, MD
University of Colorado Denver, AMC and DC
Aurora
CO

Computed tomography (CT) has a high false-positive rate. Less than 5% of people with nodules found through CT actually have lung cancer. Cells from benign nodules differ from malignant ones in two ways: they have a normal number of chromosomes and they make the same proteins as normal lung cells. Dr. York Miller is taking advantage of these differences. His team is developing a sputum-based test to determine whether a nodule is malignant or benign. The test will help decide whether the nodule requires follow-up.

Autoantibody-based biomarkers to aid in the early diagnosis of lung cancer

Early Detection Research Award
Jeffrey A. Borgia, PhD
Rush University Medical Center
Chicago
IL

Not every nodule detected on a CT scan is malignant. However, an invasive biopsy is often needed to determine this. Dr. Jeffrey Borgia’s team has discovered that malignant and benign nodules produce different types of proteins in the blood. Based on this finding, they are developing a simple blood test to predict which nodules require follow-up.

Nasal biomarkers for the evaluation of lung nodules found by LDCT screening

Early Detection Research Award
Kimberly M. Rieger-Christ, PhD
Lahey Hospital & Medical Center
Burlington
MA
Jacob Sands, MD
Lahey Hospital & Medical Center
Burlington
MA
Katrina Steiling, MD, MSc
Boston University
Boston
MA

Dr. Rieger-Christ and team are developing a minimally invasive test using nasal swabs to determine quickly and easily whether nodules found through CT screening are early cancer or benign lesions.

Detection of early-stage lung cancers via tumor DNA in blood

Early Detection Research Award
Abhijit Patel, MD, PhD
Yale University
New Haven
CT

With the goal of a simple blood test that permits early detection of lung cancer, Dr. Patel will test a new technology to see if it can accurately identify lung cancer-specific telltale changes in the blood of patients with early-stage lung cancer.

In-vivo and in-vitro diagnostics to improve lung cancer care

Career Development Award
Viswam S. Nair, MD
Stanford University
Stanford
CA

Dr. Nair is developing a blood test to help determine whether a pulmonary nodule seen on a PET-scan imaging screen is cancerous. The goal of this test, which will make use of circulating molecular biomarkers, is to accurately determine which patients are most likely to have lung cancer and, therefore, should have biopsies or surgery.

 

Developing new non-invasive methods for the diagnosis of lung cancer

Career Development Award
Mohamed Hassanein, PhD
Vanderbilt University Medical Center
Nashville
TN

Dr. Hassanein is using 164 proteins found only in lung cancer patients to develop a method to test the patient’s blood for its own antibodies to these proteins. His goal is to use these proteins as biomarkers in a blood test that will find lung cancer in its earliest, most treatable stage.

 

Identification of biomarkers for the detection of small cell lung cancer

Early Detection Research Award
Ignacio I. Wistuba, MD
University of Texas MD Anderson Cancer Center
Houston
TX
Humam Kadara, PhD
University of Texas MD Anderson Cancer Center
Houston
TX

Dr. Wistuba and his colleague Dr. Humam Kadara are identifying biomarkers that could ultimately lead to the fist test to detect small cell lung cancer in its earliest and most treatable stages.