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When cancer spreads from one part of the body to another, it becomes even more deadly. It moves with stealth and can go undetected for months or years. But a new technology that uses "nano-flares" has the potential to catch these lurking, mobilized tumor cells early on. Today, scientists presented the latest advances in nano-flare technology as it applies to the detection of metastatic breast cancer cells.

The report was one of more than 10,000 at the 247th National Meeting & Exposition of the American Chemical Society (ACS).

"We've taken perhaps the world's most important molecule, DNA, rearranged it into a spherical shape and modified it to detect specific molecules inside cells. These structures naturally enter cells and light up when they detect disease-causing molecules," said Chad Mirkin, Ph.D., who is collaborating with C. Shad Thaxton, M.D., Ph.D., to develop the new technology. "We're seeing if we can use nano-flares to create a new type of breast cancer diagnostic, and the early results are remarkable. Nano-flares could completely and radically change how we diagnose breast cancer."

Earlier is better when it comes to cancer detection, but sometimes, by the time a patient notices symptoms and visits a doctor, the first tumor has already spread from its original location in the body to another. It has undergone "metastasis," a state that causes many deaths related to cancer. Cancer took the lives of more than 8 million people worldwide in 2012.

To catch breast cancerand possibly other types of cancersearlier, the research groups built upon Mirkin's ongoing program that kicked off in the 1990s with the invention of "spherical nucleic acids" (SNAs). SNAs are usually made out of a gold nanoparticle core covered with densely packed, short strands of DNA.

"We thought that if we could get large amounts of nucleic acids to go inside cells, we could manipulate and measure things inside cells," said Mirkin, of Northwestern University. "Most people said we were wasting our time, but then out of curiosity, we put these particles in cell culture. Not only did we find that they go in, they went in better than any material known to man."

Taking advantage of their ability to enter cells easily, Mirkin's group set out to turn SNAs into a diagnostic toolthe nano-flare. Recently, he and Thaxton designed these particles, which enter circulating healthy and unhealthy cells in blood samples, but light up only inside breast cancer cells.

"Nano-flares can detect just a few cancer cells in a sea of healthy cells," Mirkin said. "That's important because when cancer spreads, only a few cells may break off from the original tumor and go into the bloodstream. An added bonus of these particles is that scientists may be able to sample the live cancerous cells and figure out what therapies they might respond to."

The groups have successfully tested the nano-flares' ability to identify metastatic breast cancer cells in blood samples from animals and are currently experimenting with human samples.

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Catching the early spread of breast cancer

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