Mutation profile

Laboratory tests that identify changes at the level of DNA and help decide course of treatment 

Heterogeneity of Microarray-based Lung Cancer Signature in Patients with Lung Cancer

Early Detection Research Award
Funded by LUNGevity Foundation and The CHEST Foundation
Scott L. Shofer, MD
Durham VA Medical Center Pulmonary Service
Durham
NC

Dr. Shofer’s research builds on work of earlier investigators who developed a lung cancer risk signature based on genetic changes in lung cells in smokers. Dr. Shofer hypothesizes that the lung cancer risk signature model is an indicator of how lung cells change during the process of cancer development. Should his hypothesis be correct, the lung cancer risk signature could be established as a sensitive biomarker capable of diagnosing patients with lung cancer by checking cells taken from the throat using a swab.

Molecular signatures to predict response in neoadjuvant chemoradiation therapy of Stage III NSCLC patients

Targeted Therapeutics Research Award
LUNGevity Foundation/Respiratory Health Association of Chicago Research Grant
Jeffrey A. Borgia, PhD
Rush University Medical Center
Chicago
IL

Dr. Borgia is developing a process based on biomarkers derived from tissue and clinical factors such as age, smoking history, histology, and stage of diagnosis of lung cancer. This process will identify which patients with advanced-stage lung cancer will respond to medical treatment and thus qualify for surgery that potentially could cure the cancer.

Developing Novel Biomarkers and Targets to Address Small Cell Lung Cancer

Early Detection Research Award
LUNGevity Foundation/The University of Kansas Cancer Center Research Grant
Sitta Sittampalam, PhD
University of Kansas Medical Center
Kansas City
KS
Chao Huang, MD

Dr. Sittampalam is determining whether circulating tumor cells can be a useful blood-based tumor marker in untreated patients with extensive-stage small cell lung cancer who are planning to receive chemotherapy. He is also exploring the feasibility of genomic profiling using circulating tumor cells.

Folate-related biomarkers as predictors of response to pemetrexed therapy

Targeted Therapeutics Research Award
Alexander Steven Whitehead, DPhil
University of Pennsylvania
Philadelphia
PA

Pemetrexed is a chemotherapy drug commonly used for the treatment of non-small cell lung cancer. The drug blocks two proteins called DHFR and TS that cancer cells need to grow. Not all patients respond to pemetrexed. Dr. Alexander Whitehead is studying how changes in the DHFR and TS genes predict response of non-small cell lung cancer patients to pemetrexed.

Predictive blood-based markers of response to VEGF inhibitors in NSCLC

Targeted Therapeutics Research Award
A Breath of Hope Lung Foundation
John V. Heymach, MD, PhD
University of Texas MD Anderson Cancer Center
Houston
TX
David Carbone, MD, PhD
The Ohio State University
Columbus
OH

Cancer cells make chemicals that attract blood vessels. This process is known as angiogenesis. Drugs that inhibit angiogenesis are already being used to treat lung cancer patients. Unfortunately, not all patients respond to angiogenesis inhibitors. Dr. John Heymach is studying what determines whether a patient will respond.

Identifying Tumor Genomic Changes in Lung Cancers

Targeted Therapeutics Research Award
This grant was funded in part by Upstage Lung Cancer
Rebecca Heist, MD, MPH
Massachusetts General Hospital
Boston
MA
Anthony Iafrate, MD
Massachusetts General Hospital
Boston
MA
William Pao, MD, PhD
Vanderbilt University
Nashville
TN

Targeted therapies have shown great promise. However, up to 40% of patients with lung cancer do not test positive for a known target. Dr. Rebecca Heist is studying this group of patients and using DNA sequencing technology to identify novel targets for treatment.

Examining LKB1 status as a biomarker for response of lung cancer to metformin

Targeted Therapeutics Research Award
Edward Gabrielson, MD
Johns Hopkins University School of Medicine
Baltimore
MD

Metformin is an FDA-approved drug for the treatment of diabetes. Dr. Edward Gabrielson and his colleagues have found that a gene called LKB1 is altered in 40% of lung cancer patients. He is studying whether lung cancer cells with mutations in LKB1 are sensitive to metformin. His ultimate goal is to use an already-approved drug for the treatment of LKB1-positive lung cancers.

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.

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.

Identifying germline risk mutations for early-onset and familial NSCLC

Early Detection Research Award
Zeynep H. Gümüş, PhD
Icahn School of Medicine at Mount Sinai
New York
NY
Steven M. Lipkin, MD, PhD
Joan & Sanford I. Weill Medical College of Cornell University
New York
NY
Kenneth Offit, MD, MPH
Memorial Sloan Kettering Cancer Center
New York
NY
Each year, more than 22,000 people who have never smoked are diagnosed with lung cancer, many at younger ages. Dr. Gümüş and team will identify underlying genes that could indicate a higher risk of developing lung cancer, similar to what has been found with certain forms of breast, colorectal, and pancreatic cancers. People who carry the high-risk genes could then be monitored more carefully.