A team of physicists and engineers at Case Western Reserve University in Cleveland, OH, has created an optical biosensor for cancer detection using nanostructured metamaterials that are 1 million times more sensitive than previous versions, pointing the way toward an effective early detection system for cancer and other illnesses.
The device, which is small enough to fit in the palm of a hand, has been developed to provide oncologists with a way to detect a single molecule of an enzyme produced by circulating
cancer cells.
Such detection could allow doctors to diagnose patients with certain cancers far earlier than possible today, monitor treatment and resistance, and more.
The research, published online in the journalNature Materials, describes how the nanosensor acts like a biological sieve, isolating a small protein molecule weighing less than 800 quadrillionths of a nanogram from an extremely dilute solution.
The researchers believe the sensing technology will also be useful in diagnosing and monitoring other diseases.
"The prognosis of many cancers depends on the stage of the cancer at diagnosis," says Giuseppe "Pino" Strangi, professor of physics at Case Western Reserve and leader of the research.
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Scientists develop supersensitive biosensor for cancer
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The researchers used nanostructured metamaterials 1 million times more sensitive than previous versions, enabling an early detection system for cancer. |
Source: medicalnewstoday