A noninvasive laser therapy that destroys cancer cells but leaves healthy ones unharmed has been developed by scientists at Stanford (Calif.) University.

“One of the longstanding problems in medicine is how to cure cancer without harming normal body tissue,” says Hongjie Dai, associate professor of chemistry. “Standard chemotherapy destroys cancer cells and normal cells alike. That’s why patients often lose their hair and suffer numerous other side effects. For us, the Holy Grail would be finding a way to selectively kill cancer cells and not damage healthy ones.”

For the experiment, Dai and his colleagues used a basic tool of nanotechnology–carbon nanotubes, synthetic rods that are only half the width of a DNA molecule. Thousands of nanotubes easily could fit inside a typical cell.

“An interesting property of carbon nanotubes is that they absorb near-infrared light waves, which are slightly longer than visible rays of light and pass harmlessly through our cells,” Dai explains. However, shine a beam of near-infrared light on a carbon nanotube, and the results are dramatic. Electrons in the nanotube become excited and begin releasing excess energy in the form of heat. In the experiment, researchers discovered that, if they placed a solution of carbon nanotubes under a near-infrared laser beam, it would heat up to about 158[degrees]F in two minutes. When nanotubes were placed inside cells and radiated by the laser beam, the cells quickly were destroyed. However, cells without nanotubes showed no effects when placed under near-infrared light.

“It’s actually quite simple and amazing,” Dai observes. “We’re using an intrinsic property of nanotubes to develop a weapon that kills cancer.” To assure that only diseased cells were destroyed in the experiment, the scientists had to find a way to deliver carbon nanotubes into cancer cells selectively and not into healthy ones. Dai and his co-workers achieved this by performing a bit of biochemical trickery. Unlike normal cells, the surface of a cancer cell contains numerous receptors for a vitamin known as folate. The researchers decided to coat the nanotubes with folate molecules, which only would be attracted to diseased cells with folate receptors.

Most of the folate-coated nanotubes ended up inside cancer cells, bypassing the normal cells–like Trojan horses crossing the enemy line. Once the nanotubes were planted inside, the researchers shined the near-infrared laser on the cancer cells, which soon heated up and died