FDA Approves New Genetic Test For Breast Cancer Patients
Main Category: Breast CancerAlso Included In: Genetics; Regulatory Affairs / Drug Approvals
Article Date: 15 Jan 2008 - 4:00 PDT
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The U.S. Food and Drug Administration has approved a test that helps in assessing the risk of tumor recurrence and long-term survival for patients with relatively high-risk breast cancer. The TOP2A FISH pharmDx is the first approved device to test for the TOP2A (topoisomerase 2 alpha) gene in cancer patients.
The TOP2A gene plays a role in DNA replication. The TOP2A FISH pharmDx test uses fluorescently labeled DNA probes to detect or confirm gene or chromosome abnormalities, a technology known as fluorescent in situ hybridization (FISH).
The recurrence of cancer depends partly on certain genes whose activity may be altered by changes in the number of gene copies in the tumor. Changes in the TOP2A gene in breast cancer cells mean there is an increased likelihood that the tumor will recur or that long-term survival will be decreased.
"When used with other clinical information and laboratory tests, this test can provide health care professionals with additional insight on the likely clinical course for breast cancer patients," said Daniel Schultz, M.D., director of FDA's Center for Devices and Radiological Health. "It can also provide valuable information to assist health care providers and patients in better understanding the biology of breast cancer disease."
The test is suitable for breast cancer patients who are premenopausal or for whom tumor characteristics, such as tumor size or lymph node involvement, suggest a higher likelihood of tumor recurrence or decreased survival.
The FDA reviewed evidence that the test has been properly validated for its intended use.
The product was studied in Danish patients who were treated with chemotherapy after removal of a breast tumor. The test is conducted on a small piece of the removed tumor. The removed piece is stained with the FISH chemicals and studied under a microscope.
The company submitted data from a study using tumor samples and clinical data from 767 patients with high risk tumors at 21 centers in Denmark. These studies confirmed that the test was useful in estimating time to local or distant recurrence and overall survival in women who received certain chemotherapy regimens assisting in the treatment of the disease.
The product is manufactured by Dako Denmark A/S (Glostrup, Denmark).
http://www.fda.gov
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Genetic Tests For Patients With Breast Cancer
posted by Gregory D. Pawelski on 16 Jan 2008 at 1:44 pmThe headlong rush to develop tests to identify molecular predisposing mechansims still does not guarantee that a drug will be effective for an individual patient. Nor can they, for any patient or even large group of patients, discriminate the potential for clinical activity among different agents of the same class.
Genetic profiles are able to help doctors determine which patients will probably develop cancer, and those who will most likely relapse. However, it cannot be suitable for specific treatments for "individual" patients.
Cancer cells often have many mutations in many different pathways, so even if one route is shut down by a targeted treatment, the cancer cell may be able to use other routes. Targeting one pathway may not be as effective as targeting multiple pathways in a cancer cell.
Another challenge is to identify for which patients the targeted treatment will be effective. Tumors can become resistant to a targeted treatment, or the drug no longer works, even if it has previously been effective in shrinking a tumor. Drugs are combined with existing ones to target the tumor more effectively. Most cancers cannot be effectively treated with targeted drugs alone.
Gene profiling tests, important in order to identify new therapeutic targets and thereby to develop useful drugs, are still years away from working successfully in predicting treatment response for "individual" patients. Perhaps this is because they are performed on dead, preserved cells that were never actually exposed to the drugs whose activity they are trying to assess.
It will never be as effective as the cell "function" method, which exists today and is not hampered by the problems associated with genetic tests. That is because they measure the net effect of all processes within the cancer, acting with and against each other in real time, and it tests living cells actually exposed to drugs and drug combinations of interest.
The key to understanding the genome is understanding how cells work. The ultimate driver is a "functional" assay (is the cell being killed regardless of the mechanism) as opposed to a "target" assay (does the cell express a particular target that the drug is supposed to be attacking). While a "target" assay tells you whether or not to give "one" drug, a "functional" assay can find other compounds and combinations and can recommend them from the one assay.
The core of the functional assay is the cell, composed of hundreds of complex molecules that regulate the pathways necessary for vital cellular functions. If a "targeted" drug could perturb any one of these pathways, it is important to examine the effects of the drug within the context of the cell. Both genomics and proteomics can identify potential new therapeutic targets, but these targets require the determination of cellular endpoints.
Cell-based functional assays are being used for screening compounds for efficacy and biosafety. The ability to track the behavior of cancer cells permits data gathering on functional behavior not available in any other kind of assays.
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