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For Some Cancer Patients, Personalized Medicine Has Arrived (Op-Ed)

diagnostic chip can quickly determine best medicine
This small chip, containing the DNA of eight lung cancer patients, can perform up to 400 genetic tests in one pass. Researchers at The Ohio State University`s James Cancer Hospital and Solove Research Institute and Comprehensive Cancer Center, put a barcode on each patient`s DNA, then use that information to quickly determine which medications will work best for each patient.
CREDIT: The Ohio State Comprehensive Cancer Center - James Cancer Hospital and Solove Research Institute.

Dr. Greg Otterson, thoracic oncologist at The Ohio State University Comprehensive Cancer Center – Arthur G. James Cancer Hospital & Richard J. Solove Research Institute, contributed this article to LiveScience's Expert Voices: Op-Ed & Insights.

Lung cancer remains the number one cause of cancer death in the United States, and in the world, among both men and women. More than 200,000 cases are diagnosed annually in the United States. Each year during the month of November, physicians and others observe lung cancer awareness month, which sheds light on this terrible disease.

To highlight the connection between lung cancer and smoking, the American Cancer Society encourages everyone on the third Thursday of November to quit smoking by participating in the Great American Smokeout. This is an important step towards reducing your cancer risk (as well as your risk of heart and lung disease).

The majority of people with lung cancer are either smokers or have a history of smoking, but 15- to 20-percent of people affected by the disease in the United States have never smoked.

a lead lab technician injects a patient`s DNA onto a computer chip for testing
Susan Long, a lead lab technician at The Ohio State University`s James Cancer Hospital and Solove Research Institute and Comprehensive Cancer Center, injects a patient`s DNA onto a computer chip for testing. Doctors take small samples of DNA from lung biopsies and test them for 50 different genetic mutations. The results of the test help doctors quickly decide which medicines will work best for which patients, a huge advantage when battling lung cancer, the deadliest form of cancer in the U.S.
Credit: The Ohio State Comprehensive Cancer Center - James Cancer Hospital and Solove Research Institute.

Half the people diagnosed each year with lung cancer have metastatic disease at diagnosis, which is generally considered incurable. Physicians are trying to change that in a number of ways, including screening patients at risk of lung cancer and developing new, targeted treatments for specific patients.

Imagine your doctor being able to scan your DNA from a biopsy and pinpoint the medicine that will work best for you. This type of high-tech approach is a clinical reality for advanced lung cancer at The Ohio State Comprehensive Cancer Center – Arthur G. James Cancer Hospital and Richard J. Solove Research Institute (OSUCCC – James).

The technology, known as next generation "multiplex" gene sequencing, analyzes 50-plus genes in DNA extracted from a tumor biopsy for particular genetic mutations.

Cancer Test Chip Looks At 50 Different Genes At Once | Video

Previous technology required pathologists to analyze one mutation per tube in a sequencing reaction, but next-generation genome sequencing assesses more than 2,500 mutations in a single reaction. [ Lung Cancer Cases On the Rise in Non-Smokers, Study Suggests ]

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Knowing which mutations are present in lung tumors can help doctors tailor a patient's treatment to the unique genetic features present in his or her cancer cells. The knowledge can also help in the development of new drugs that target previously unrecognized gene mutations in lung tumors. I often compare these genes to the gas pedal in a car — when activated, these genes make the cancer grow. By breaking the linkage between the gas pedal and the motor (or interfering with these "driver" mutations) with specific targeted drugs, doctors can stop this growth and often make the cancer shrink. That's especially important in lung cancer because the majority of patients with this disease are diagnosed in the later stages, meaning it's important to start effective therapies quickly.

For example, a patient could be given a standard chemotherapy and expect a 25- to 30- percent response rate/shrinkage of a tumor. But if the treatment team knows that a patient has a mutation in a gene called EGFR, we can offer him or her a pill (erlotinib and afatinib are approved for this use in the United States), which has a 75-percent response rate and fewer side effects.

Gene sequencing is now considered the standard of care for stage-4 lung cancer patients at The OSUCCC – James and a handful of other centers across the United States — and several clinical trials evaluating molecular targeted therapies for patients with stage-3 lung cancers will soon start at The OSUCCC – James.

Raymond Thomas and lung cancer treatment
Raymond Thomas of Delaware, Ohio, manages his lung cancer by simply taking a pill twice a day. Doctors determined which medicine would work best for Thomas by scanning his DNA and spotting genetic mutations that are vulnerable to this medication. The technology is changing the way doctors approach lung cancer cases at The Ohio State University`s James Cancer Hospital and Solove Research Institute and Comprehensive Cancer Center.
Credit: The Ohio State Comprehensive Cancer Center - James Cancer Hospital and Solove Research Institute

In addition to doing a far better job of finding mutations, this technology is faster, uses patients' tumor samples efficiently and reduces the cost of genomic testing, making it accessible to more patients.

Lung cancer screening is available to individuals with a history of heavy smoking at The OSUCCC – James. If you are interested in learning more about screening, treatment and clinical trials, call 1-800-293-5066.

The views expressed are those of the author and do not necessarily reflect the views of the publisher. This version of the article was originally published on LiveScience.

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