DNA-spiked nanoparticles could help minimize scarring

Not only are large scars often unsightly, but the stiff scar tissue can also limit a person's range of motion, causing discomfort. And although there are procedures that minimize scarring, it's not always apparent if such measures need to be taken. Newly-developed nanoparticles could help doctors decide. 

Developed in a collaboration between Singapore's Nanyang Technological University (NTU) and Northwestern University in the US, the tiny particles are known as NanoFlares. Each one consists of a gold nanoparticle covered with specifically-sequenced DNA strands, which stick out from it like spikes.

A cream containing thousands of these particles is initially applied to a recently-closed wound – it's already been tested on mice, rabbits, and human skin samples, showing negligible toxicity. The wound is then left for 24 hours, during which time the particles penetrate up to 2 mm below the surface of the skin. After that, a handheld fluorescence microscope is used to inspect the wound.

"Upon binding with a specific tell-tale gene released by the scar cells, smaller DNA spikes are knocked loose and light up under the microscope like little light flares," says NTU's assistant professor Xu Chenjie. "The more flares we see, the more scarring activity there is."

If it's determined that there will be excessive scarring, doctors can then take preventative actions such as applying a silicone sheet to the wound, in order to keep the tissue flat and moist.