Study: Inconsistent approaches to studying cell mechanics undermines the discipline

September 5, 2018
cells

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A cell’s properties—the way it moves, its shape, its texture, and its stiffness—have an enormous impact on human development, the immune response, and the progression of cancer.

But researchers studying those cell mechanics often wind up with different results than their colleagues do, leading to confusion and delaying potential breakthroughs in cancer treatment and immunotherapy.

Denis Wirtz, the Johns Hopkins vice provost for research and a professor in the Department of Chemical and Biomolecular Engineering, recently discovered that the discrepancies were due to different measurement techniques. In a paper published in Nature Methods in July, Wirtz and colleagues analyze measurements obtained by some of the most common methods and discuss the importance of selecting an appropriate technique for the biological issue being investigated.

“We wanted the paper to be a practical guide for the non-expert to decide which technique to use for which purpose, and to make cell mechanics a little more prominent,” says Wirtz, who directs the Johns Hopkins Physical Sciences-Oncology Centers and co-directs the Cancer Nanotechnology Training Center.

Cell mechanics, a field that has grown rapidly in the last decade or two, is crucial in cancer research; there is a strong correlation between the stiffness of tumor cells and how readily they metastasize. More generally, the discipline offers insight into how cells are actually behaving, rather than what they are capable of doing. As the field has grown, a wide range of methods for measurement has developed, so Wirtz says it’s time to “push pause” and standardize the most appropriate techniques. Unifying the maturing field around a common set of approaches will make cell mechanics more valuable to the larger cancer research community, he says.

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