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The Personal Cancer Genome and Precision Cancer Trials
1. The Personal Cancer Genome and Precision Cancer
Trials
jamesline.com /the-personal-cancer-genome-and-precision-cancer-trials/
April 8, 2014 3:10 pm
Clinical trials traditionally have been designed to treat patients with a specific disease and to treat all
patients on the trial the same way. For example, we would evaluate a new drug for breast cancer by giving
the agent to a group of breast-cancer patients, and if enough of them benefited, we would judge the drug a
good one. If few patients benefited, the drug would likely be abandoned.
During such disease-based trials, a small number of participants, maybe 1-10 percent, can benefit
amazingly from the drug, but further development of the agent is unlikely because clinical trials as usually
done are impractical for small numbers of patients.
Genomics is now helping us understand why some patients respond differently to therapy; although all the
women in our hypothetical trial have cancer of the breast, not all breast cancers are the same, because
there is no routine cancer.
Traditionally, we diagnose breast cancer, leukemia or prostate cancer by examining the way cells appear
under a microscope. This tissue-of-origin approach has provided a histology-based or âmicroscopic
classificationâ of cancer that has been used for decades.
Histologically, malignancies such as breast and prostate cancer appear to be the same. But cancer
genomic studies, such as The Cancer Genome Atlas, demonstrate that these cancers are dissimilar, with
sets of mutations and other genetic changes that allow their grouping into subtypes (breast cancer may
have more than 25). Each subtype may be a different disease that requires different therapy based on the
tumorâs genomics. These molecular subtypes are driving the development of targeted drugs and
influencing how we do clinical trials.
2. Some cancer centers, including the OSUCCC â James, are developing a new type of trial design that
âbasketsâ different diseases that share a molecular target in one trial.
In some instances, if we know enough about the molecular subsets of a disease, we may be able to enroll
patients into trials that have a drug that matches the molecular makeup of their cancer. To facilitate these
trials, cancer centers must be capable of providing a personalized molecular view of an individualâs cancer.
Gene sequencing technology called next-generation sequencing will enable oncologists to determine
which of 200-plus significant genes are altered in a patientâs cancer and to use this information to guide
therapy. Ohio State is among the leaders in the country in promoting and championing this precision
oncology strategy.
Read âThe Power of Genomicsâ to learn about the molecular differences in cancers.
By Sameek Roychowdhury, MD, PhD