Last year, MIT engineers developed a double-sided adhesive that could quickly and firmly stick to wet surfaces such as biological tissues. They showed that the tape could be used to seal up rips and tears in lungs and intestines within seconds, or to affix implants and other medical devices to the surfaces of organs such as the heart.
Now they have further developed their adhesive so that it can be detached from the underlying tissue without causing any damage. By applying a liquid solution, the new version can be peeled away like a slippery gel in case it needs to be adjusted during surgery, for example, or removed once the tissue has healed.
In considering designs for their original adhesive, the researchers quickly realized that it is extremely difficult for tape to stick to wet surfaces, as the thin layer of water lubricates and prevents most adhesives from taking hold.
To get around a tissue's natural slipperiness, the team designed their original adhesive out of biocompatible polymers including polyacrylic acid, a highly absorbent material commonly used in diapers and pharmaceuticals, that soaks up water, then quickly forms weak hydrogen bonds with the tissue's surface. To reinforce these bonds, the researchers embedded the material with NHS esters, chemical groups that form stronger, longer-lasting bonds with proteins on a tissue's surface.
To make the adhesive detachable, the team first tweaked the adhesive itself. To the original material, they added a new disulfide linker molecule, which can be placed between covalent bonds with a tissue's surface proteins. The team chose to synthesize this particular molecule because its bonds, while strong, can be easily severed if exposed to a particular reducing agent.
The researchers then looked through the literature to identify a suitable reducing agent that was both biocompatible and able to sever the necessary bonds within the adhesive. They found that glutathione, an antioxidant naturally found in most cells, was able to break long-lasting covalent bonds such as disulfide, while sodium bicarbonate, also known as baking soda, could deactivate the adhesive's shorter-lasting hydrogen bonds.
The team mixed concentrations of glutathione and sodium bicarbonate together in a saline solution, and sprayed the solution over samples of adhesive that they placed over various organ and tissue specimens, including pig heart, lung, and intestines. In all their tests, regardless of how long the adhesive had been applied to the tissue, the researchers found that, once they sprayed the triggering solution onto the tape, they were able to peel the tape away from the tissue within about five minutes, without causing tissue damage.
"At that point, the solution converts this extremely sticky adhesive to just a layer of slippery gel that you can easily peel off."
"Our goal is to use bioadhesive technologies to replace sutures, which is a thousands-of-years-old wound closure technology without too much innovation,"
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