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New gel could speed wound healing

In this Wednesday Aug. 4, 2010 photo a demonstration of how wound-healing gel is used on a leg wound is seen at University College London. British scientists are about to begin a final phase of testing on a new gel that heals wounds up to five times as fast as normal treatment. The gel, named Nexagon, works by interrupting how cells communicate and prevents the production of a protein that blocks healing. That allows cells to move faster to the wound to begin healing it. Though it has only been tested on about 100 people so far, experts say if it proves successful, the gel could have a major impact on treating chronic wounds, like leg or diabetes ulcers, and even common scrapes or injuries from accidents. (AP Photo/Kirsty Wigglesworth)

 

 

LONDON — For three years, Connie McPherson had debilitating leg ulcers that were so painful she sometimes couldn't sleep. Despite repeated surgery, antibiotics, steroids and other treatments, nothing helped.

 

Then last year, she took part in a trial for a new gel aimed at chronic wounds.

 

"It was the answer to my prayers," said McPherson, 58, a real estate agent in Tulsa, Oklahoma. Within weeks, McPherson said the ulcer treated was completely healed. "I tried everything possible and this is the only thing that worked."

 

The gel used to treat McPherson was developed by a team led by David Becker, a professor of cell and developmental biology at University College London. The gel, named Nexagon, works by interrupting how cells communicate and prevents the production of a protein that blocks healing. That allows cells to move faster to the wound to begin healing it.

 

Though it has only been tested on about 100 people so far, experts say if it proves successful, the gel could have a major impact on treating chronic wounds, like leg or diabetes ulcers, and even common scrapes or injuries from accidents.

 

In most chronic wounds, Becker said there is an abnormal amount of a protein involved in inflammation.

 

To reduce its amount, Becker and colleagues made Nexagon from bits of DNA that can block the protein's production. "As that protein is turned off, cells move in to close the wound," Becker said. The gel is clear and has the consistency of toothpaste.

 

http://www.msnbc.msn.com/id/38671775/ns/technology_and_science-science/