Dr. Steven Curley (Credit: University of Texas)

The nanotubes, injected into the tumor, act as conductors for the radio-waves. The use of nanotubes is not innovative, since carbon nanotubes designed to react to near-infrared waves were used before for cancer treatment. However, the near infrared waves can only penetrate the top four centimeters of the skin. A major achievement of the current project is that the scientists succeeded in finding a way of using radio-frequency waves (which penetrate the body easily) to vibrate the carbon nanotubes. 

 The concept was proven practical in successfully conducted experiments on a tumor in a rabbit's liver. The nanotubes were injected into the tumor and treated with a radio-frequency for two minutes. As a result, the cancerous cells were killed. This was the first time carbon nanotubes were used in a living creature rather than on a cell culture. 

There are still some unresolved issues that must be overcome before this development can be put into use. The main problem of this technique is the killing radius; this radiotherapy treatment kills cells in a radius of 2-3 millimeters around the tumor, a killing zone that must be decreased. Another issue is the specific targeting of the nanotubes to the cancer cells. In this experiment, the nanotubes were injected into the tumor. Injection might not always be practical or accurate. Therefore, another way of targeting the nanotubes, such as using specific antibodies, is currently under research. 

The targeted radiotherapy using carbon nanotubes will probably reach the clinical trials phase in 3-4 years. So far, only a proof of concept experiment was demonstrated and more research needs to be conducted before the method can be widely used. 

More information on the research can be found on the Texas M. D. Anderson Cancer Center website.