- Category: News
31 Mar 2011
- Written by Tri-State Defender Newsroom
“A biopsy needle does not need to hit a tumor to detect the presence of tumor,” said lead researcher Dan Mercola, M.D., Ph.D., professor of pathology and laboratory medicine at the University of California at Irvine. “It is reminiscent of the game Battleship; we can detect more cancer cases using 12 shots with a biopsy needle than would otherwise be the case because we have made the ships bigger.”
More than 1 million prostate biopsies are performed in the United States each year, and these diagnostic tests can miss up to 30 percent of clinically significant prostate cancers. As many as one third of patients receive repeat biopsies within a year due to equivocal first results, Mercola said. Based on these study results, physicians could possibly detect changes in non-tumor tissue that indicate a tumor may be present, which could allow patients to be given a follow-up biopsy sooner.
Mercola and colleagues obtained 364 samples from men of all races who had biopsies for possible prostate cancer, or had prostatectomies to remove cancer, as well as control prostates from donors that had died of causes other than prostate cancer. They observed changes in the nearby non-tumor tissue and found that changes in gene expression in normal tissue could be detected up to a few millimeters from prostate cancer.
Ruoxiang Wang, M.D., Ph.D., a research scientist and associate professor in the department of medicine at Cedars-Sinai Medical Center, Los Angeles, said the study represents “one of the few painstaking attempts to define the pathology of tumor-associated stroma in prostate cancer patients…this study is the first to use clinical specimens in such studies in large scale, while the findings are in such a high statistical significance.
Further studies will be required to confirm the findings, and before urologists will likely be able to use a diagnosis based on non-tumor tissue for recommending surgery or other radical treatment, according to the researchers. Wang said the results, if confirmed, could provide guidance to the understanding of the tumor microenvironment, as cancer-stromal interaction plays a pivotal role in prostate cancer progression and bone metastasis.