Stage - all

Projects that include study or analysis of patient samples from all stages of lung cancer

Predictive biomarkers of radio-immunotherapeutic response in NSCLC

Career Development Award
Sean Pitroda, MD
The University of Chicago
Chicago
IL

Dr. Pitroda and his team will develop a biomarker signature that can predict which patients are the most likely to benefit from an immunotherapy-radiation therapy combination. The ultimate goal is to determine which patients are likely to benefit from this combination treatment.

Integrated Blood-Based and Radiographic Interception of Lung Cancer

SU2C-LUNGevity-ALA LC Interception Award
Grant title (if any)
SU2C-LUNGevity Foundation-American Lung Association Lung Cancer Interception Translational Research Team
This grant was co-funded by Stand Up to Cancer, LUNGevity, and the American Lung Association
Lecia Sequist, MD
Massachusetts General Hospital
Boston
MA
Max Diehn, MD
Stanford University
Palo Alto
CA
Tilak Sundaresan, MD
Kaiser Permanente San Francisco
San Francisco
CA
Gad Getz, PhD
Broad Institute
Cambridge
MA

The SU2C-LUNGevity Foundation-American Lung Association Lung Cancer Interception Translational Research Team, headed by LUNGevity Scientific Advisory Board (SAB) member Dr. Lecia Sequist, is developing a lung cancer interception assay (LCIA) that can be used in conjunction with low-dose CT scans. This assay will be based on an integration of several blood-based assays that examine circulating tumor cells and circulating tumor DNA.

Optical Imaging for Early Lung Cancer Diagnosis

Career Development Award
Lida Hariri, MD, PhD
Massachusetts General Hospital/Harvard University
Boston
MA

A tissue biopsy is often required to make a definitive diagnosis of lung cancer. However, because of small size and inadequate biopsy yield, early-stage lung cancer is often difficult to diagnose. Dr. Hariri is using a novel imaging technique called optical coherence tomography (OCT) to develop tools to guide tissue biopsy sampling to improve tissue yield. These tools will also provide additional diagnostic information.

Lung screening via biophotonic analysis of nanoarchitecture of buccal cells

Early Detection Research Award
This grant was funded in part by Upstage Lung Cancer
Vadim Backman, PhD
Northwestern University
Evanston
IL
Ankit Bharat, MBBS
Northwestern University
Evanston
IL

Cells in the respiratory tract are usually stacked in an orderly fashion. As lung cancer develops, the cells get “un-stacked” and their shapes change, giving them the ability to grow and spread to other parts of the body. Dr. Vadim Backman from Northwestern University is utilizing a new technology called Partial Wave Spectroscopy for seeing those cells. With the LUNGevity Early Detection Award, he will check how cells taken from the cheeks of stage I lung cancer patients reflect these early changes with the ultimate goal of using partial wave spectroscopy technology for early detection of lung cancer.

Exploring the therapeutic potential of novel KRAS inhibitors in lung cancer

Career Development Award
Piro Lito, MD, PhD
Memorial Sloan Kettering Cancer Center
New York
NY

Dr. Lito is working with a new drug that works efficiently to stop the growth of lung cancer cells with a mutation in the KRAS gene. Funding from LUNGevity will provide resources to test the drug in mice that have KRAS-positive lung cancer. Dr. Lito’s ultimate aim is to develop a clinical trial for the drug for use in patients who test positive for a KRAS mutation.

Detecting early stage lung cancer with circulating tumor cells

Career Development Award
Rajan Kulkarni, MD, PhD
Oregon Health and Science University (formerly at UCLA Medical Center)
Portland
OR

Dr. Kulkarni is studying how circulating tumor cells (cancer cells that are released into the blood stream) can be used to develop a blood test for lung cancer early detection and treatment. Funding from LUNGevity will help him use a novel technology called the Vortex Chip to test two things: first, if lung cancer be detected early by identifying circulating tumor cells in the blood and second, if there are biomarkers in circulating tumor cells that can differentiate patients who will respond to immunotherapy or chemotherapy.

Circulating miRNA as a biomarker in lung cancer

Early Detection Research Award
Funded by LUNGevity Foundation and The CHEST Foundation
S. Patrick Nana-Sinkam, MD
The Ohio State University
Columbus
OH

Dr. Nana-Sinkam is delineating the role of microRNA expression profiling in the diagnosis, management, and prognosis of lung cancer. He is testing whether microRNA expression profiles are detectable in the  blood of lung cancer patients. He will compare individuals with lung cancer with current and former smokers without lung cancer.

Horomonal factors and lung cancer: A Potential target for therapy

Targeted Therapeutics Research Award
Funded equally by LUNGevity Foundation and the National Lung Cancer Partnership
Michele Cote, PhD
Wayne State University, Karmanos Cancer Institute
Detroit
MI

Dr. Cote is examining the role of estrogen-related tumor characteristics in predicting differences in survival between men and women after a lung cancer diagnosis. The identification of molecular and genetic profiles associated with survival will help target treatment advances and customize treatment for male and female lung cancer patients.

2007 Lung Cancer Mortality Project

Early Detection Research Award
Funded equally by LUNGevity Foundation, Lung Cancer Alliance (LCA), American Legacy Foundation, Prevent Cancer Foundation, Joan's Legacy Foundation, Thomas G. Labrecque Foundation, and the Bonnie J. Addario Lung Cancer Foundation
Milliman Consulting Services Agreement (CSA)
IL

Lung cancer screening is not established as a public health practice, yet the results of a large randomized controlled trial among a high-risk population showed that screening with low-dose spiral computed tomography reduces lung cancer mortality. Milliman Consulting Company is conducting a cost-benefit analysis to demonstrate whether improved health outcomes (by catching the lung cancer early so that it can be treated) correlate with increased cost savings among this population.

In Vitro and In Vivo Characterization of Estrogen Pathway Stimulation in Human Lung Cancer

Targeted Therapeutics Research Award
Funded equally by LUNGevity Foundation and the National Lung Cancer Partnership
Lee Goodglick, PhD
David Geffen School of Medicine at UCLA
Los Angeles
CA

The rationale behind Dr. Goodglick’s research is that the hormone estrogen and estrogen-pathway activation are important for lung cancer progression. Aromatase is an enzyme that makes estrogen in the body. Dr. Goodglick is conducting extensive pre-clinical evaluations of three aromatase inhibitors to understand steps in the estrogen stimulation pathway that affect tumor progression.