Novel cancer therapy developed at University of Oklahoma based on photothermal therapy using carbon nanotubes

University of Oklahoma researchers have collaborated to design a novel, non-invasive cancer therapy that could eliminate tumors without affecting the healthy cells in the body. The cancer therapy targets specific cancer cells using single-walled carbon nanotubes that bind directly to the tumor, then are heated with near-infrared light. The OU photothermal therapy is most effective against shallow or surface tumors in breast, bladder, esophageal and melanoma cancers, without the adverse side effects of chemotherapy, radiation or surgery.

The therapy was created by Roger G. Harrison, Jr. and Daniel E. Resasco, professors in the School of Chemical, Biological and Materials Engineering, Gallogly College of Engineering. Harrison is also affiliated with the Stephenson School of Biomedical Engineering. Harrison’s expertise is protein design, production and purification, while Resasco focuses on nanostructured materials based on single-walled carbon nanotubes.

The new OU photothermal therapy consists of single-walled carbon nanotubes of tailored absorption wavelength injected into the blood stream where proteins on the nanotubes selectively bind to blood vessels that supply a tumor. Within 24 hours, a laser light is applied to the tumor causing the nanotubes to heat up, which causes the tumor to heat and be eliminated. The photothermal therapy has been tested and proven in the laboratory. The OU researchers already have one U.S. patent for this technology, and a second patent is nearing issuance.

Adapted from press release by University of Oklahoma
Contact for further info: Andrew Pollock: arpollock[at]ou.edu. replace [at] with @