New research lists cell stiffness as possible biomarker for metastatic ovarian cancer

Published on October 11, 2012 at 2:10 AM · No Comments

New Georgia Tech research shows that cell stiffness could be a valuable clue for doctors as they search for and treat cancerous cells before they're able to spread. The findings, which are published in the journal PLoS One, found that highly metastatic ovarian cancer cells are several times softer than less metastatic ovarian cancer cells.

Assistant Professor Todd Sulchek and Ph.D. student Wenwei Xu used a process called atomic force microscopy (AFM) to study the mechanical properties of various ovarian cell lines. A soft mechanical probe "tapped" healthy, malignant and metastatic ovarian cells to measure their stiffness.

"In order to spread, metastatic cells must push themselves into the bloodstream. As a result, they must be highly deformable and softer," said Sulchek, a faculty member in the George W. Woodruff School of Mechanical Engineering. "Our results indicate that cell stiffness may be a useful biomarker to evaluate the relative metastatic potential of ovarian and perhaps other types of cancer cells."

Just as previous studies on other types of epithelial cancers have indicated, Sulchek also found that cancerous ovarian cells are generally softer and display lower intrinsic variability in cell stiffnesss than non-malignant cells.

Sulchek's lab partnered with the molecular cancer lab of Biology Professor John McDonald, who is also director of Georgia Tech's newly established Integrated Cancer Research Center.

"This is a good example of the kinds of discoveries that only come about by integrating skills and knowledge from traditionally diverse fields such as molecular biology and bioengineering," said McDonald. "Although there are a number of developing methodologies to identify circulating cancer cells in the blood and other body fluids, this technology offers the added potential to rapidly determine if these cells are highly metastatic or relatively benign."

Sulchek and McDonald believe that, when further developed, this technology could offer a huge advantage to clinicians in the design of optimal chemotherapies, not only for ovarian cancer patients but also for patients of other types of cancer.

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