Tag Archives: physics

Balloon mis-positioning during prostate cancer treatment could affect success of radiation delivery

"Use of a balloon allows you to stabilize the anatomy. But what we show is that imprecision with balloon placement could reduce radiation dose coverage over the intended area," says Moyed Miften, PhD, FAAPM, investigator at the CU Cancer Center and chief physicist at the University of Colorado School of Medicine Department of Radiation Oncology. Specifically, Miften and colleagues including Bernard Jones, Gregory Gan, and Brian Kavanagh studied the technique known as stereotactic body radiation, in which powerful, precisely-targeted radiation is delivered only to cancerous areas of the prostate with the hope of killing tumor tissue. An endorectal balloon is needed to hold the prostate in place while this high dose is delivered…

Physicists decode decision circuit of cancer metastasis

The study appears online this week in the Early Edition of the Proceedings of the National Academy of Sciences. "Cancer cells behave in complex ways, and this work shows how such complexity can arise from the operation of a relatively simple decision-making circuit," said study co-author Eshel Ben-Jacob, a senior investigator at Rice’s Center for Theoretical Biological Physics (CTBP) and adjunct professor of biochemistry and cell biology at Rice. "By stripping away the complexity and starting with first principles, we get a glimpse of the ‘logic of cancer’ — the driver of the disease’s decision to spread." In the PNAS study, Ben-Jacob and CTBP colleagues José Onuchic, Herbert Levine, Mingyang Lu and Mohit Kumar Jolly describe a new theoretical framework that allowed them to model the behavior of microRNAs in decision-making circuits…

Physicists offer novel insight into experimental cancer treatment

Magnetic hyperthermia is viewed as an attractive approach for the treatment of certain cancers as it has no known side effects compared to more conventional therapies such as chemotherapy. It is particularly suitable for the treatment of prostate cancer and brain tumours. However, until now there has been no clear theoretical understanding of how it actually works. …

Cancer is a result of a default cellular ‘safe mode,’ physicist proposes

In this month’s special issue of Physics World devoted to the "physics of cancer," Paul Davies, principal investigator at Arizona State University’s Center for Convergence of Physical Sciences and Cancer Biology, explains his radical new theory. Davies was brought in to lead the centre in 2009 having almost no experience in cancer research whatsoever. …

odors from human skin cells can be used to identify melanoma

Melanoma is a tumor affecting melanocytes, skin cells that produce the dark pigment that gives skin its color. The disease is responsible for approximately 75 percent of skin cancer deaths, with chances of survival directly related to how early the cancer is detected. Current detection methods most commonly rely on visual inspection of the skin, which is highly dependent on individual self-examination and clinical skill. The current study took advantage of the fact that human skin produces numerous airborne chemical molecules known as volatile organic compounds, or VOCs, many of which are odorous. …

Biophysicists measure mechanism that determines fate of living cells

Cells in the human body do not function in isolation. Living cells rely on communication with their environment — neighboring cells and the surrounding matrix — to activate a wide range of cellular functions, including reproduction of new cells, differentiation of stem cells into distinct cell types, cell adhesion, and migration of white blood cells to fight bodily infections. This cellular communication occurs on the molecular level and it is reciprocal: a cell receives cues from and also transmits function-activating cues to its neighbors…