Implantable LED device uses light to treat deep-seated cancers, suggests study
Certain types of light have proven to be an effective, minimally invasive treatment for cancers located on or near the skin when combined with a light-activated drug. But deep-seated cancers, surrounded by tissue, blood and bone, have been beyond the reach of light’s therapeutic effects.
To bring light’s benefits to these harder-to-access cancers, engineers and scientists at the University of Notre Dame have devised a wireless LED device that can be implanted. This device, when combined with a light-sensitive dye, not only destroys cancer cells, but also mobilizes the immune system’s cancer-targeting response. The research was published in Photodiagnosis and Photodynamic Therapy.
“Certain colors of light penetrate tissue deeper than other ones,” said Thomas O’Sullivan, associate professor of electrical engineering and co-author on the paper. “It turns out that the kind of light-in this case green-that doesn’t penetrate as deeply has the capability of producing a more robust response against the cancer cells.”
Before the light can be effective in destroying cancer cells, a dye with light-absorbing molecules must be administered to the cells. The device turns on, the dye transfers the light into energy and that energy makes the cells’ own oxygen toxic-in effect, turning the cancer cells against themselves.
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