First-Ever Genomic Test Predicts which Lung Cancer Patients Need Chemotherapy to Live
Duke University Medical Center scientists have announced that they have developed the first-ever genomic test to predict which patients with early-stage lung cancer will need chemotherapy to live and which patients can avoid the toxic regimen of drugs.
The test has the potential to save tens of thousands of lives each year by recommending chemotherapy for patients who are currently advised against it, said the test's developers at Duke's Institute for Genome Sciences & Policy.
The test is promising results have initiated a landmark multi-center clinical trial, to be led by Duke investigators next year. Patients with early-stage non-small cell lung cancer will receive the genomic test and its results will determine their treatment.
The new test, called the Lung Metagene Predictor, scans thousands of genes to identify patterns of gene activity in individual tumors that indicate a patient is likely to suffer a recurrence of disease. Recurrent tumors are typically fatal, so identifying at-risk patients is critical to properly treating them, said the Duke researchers.
"Using the unique genomic signatures from each tumor, our new test predicted with up to 90 percent accuracy which early-stage lung cancer patients would suffer a recurrence of their cancer and which patients would not," said Anil Potti, M.D., an assistant professor of medicine and lead author of the study.
"We now have a tool that can be used to move these high-risk patients from the 'no chemotherapy' group into the aggressive treatment group."
The researchers will publish their findings in the Aug. 10, 2006, issue of the New England Journal of Medicine. The research was funded by the National Institutes of Health.
Early-stage patients - those with small, stationary tumors - are considered at low risk of recurrence. Hence, they only receive surgery but not chemotherapy. The dilemma, said Potti, is that a third or more of early-stage patients who appear to be at low risk will experience a recurrent tumor.
"Until now, there simply has been no way to identify the 30 percent to 40 percent of early-stage lung cancer patients who would experience a recurrence," Potti said. "Now, with our test, we can say with confidence that we can identify this group of patients so they can be treated accordingly."
The upcoming trial is the first to use a genomic test to select treatment options for individual lung cancer patients, said David Harpole, M.D., a professor of thoracic surgery at Duke and principal investigator of the upcoming clinical trial. The trial, to begin within six months, will enroll more than 1,000 patients at multiple centers in the United States and Canada.
"If we can use the test to increase patient survival by even 5 percent, we would save 10,000 lives a year," Harpole said.
The Duke researchers developed the test by analyzing the activity of genes from early-stage lung cancer patients whose disease outcomes were known. The Duke scientists then validated the genomic test in 129 patients by comparing the test's predictions with the patient's actual outcomes. The test predicted their risk of recurrence with 90 percent accuracy, the study showed.
If proven to be effective in the clinical trial, the test will replace the current method of assessing risk, which is imprecise and provides only a broad estimate of a patient's risk, said Joseph Nevins, Ph.D., a professor of molecular genetics at Duke and senior author of the study being reported.
