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Journal of the National Cancer Institute Advance Access originally published online on June 23, 2009
JNCI Journal of the National Cancer Institute 2009 101(13):914-915; doi:10.1093/jnci/djp193
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© Oxford University Press 2009.

NEWS

Physics and Carcinogenesis

Does Homeostatic Pressure Explain Tumor Growth?

Mike Martin

The first 150 words of the full text of this article appear below.

To the much-studied genetic and biochemical forces that govern cell growth, dysplasia, and metastasis, a burgeoning science—call it mechanical biology—is adding forces that might seem more applicable to airliners and skyscrapers. Shear, friction, stress, tension, and viscosity also play a role in oncogenesis, according to researchers exploring this interface between biology and physics.

"To grow, a tumor must, most of the time, push normal tissue out of its natural position," said Jacques Prost, Ph.D., of the Curie Institute in Paris, a leader in the physical sciences research department where Pierre and Marie Curie discovered radium and Paul Langevin discovered sonar. "Mechanical forces are at work, hence the necessity of investigating their importance."


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  		Jacques Prost, Ph.D.

 
In a new report, Prost and his colleagues propose a mathematical model, based on existing clinical and laboratory data, that explains how a mechanical force that they call homeostatic pressure affects tumor growth and . . . [Full Text of this Article]

Homeostatic Pressure

Hard Data

Not Convinced


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