One obstacle to using implantable devices for delivering drugs such as insulin is that the immune system attacks the implant, forming a thick layer of scar tissue that blocks the drugs’ release. Now MIT engineers and collaborators have devised a way to overcome this response without any immunosuppressant drugs.
The team incorporated a drug reservoir into a soft robotic device that also includes a mechanical actuator, which repeatedly inflates and deflates the device. This action drives away immune cells called neutrophils, which initiate the process that leads to scar formation. Any scar tissue that does develop takes a form more likely to let drugs through. In mice, they showed that the device remained functional for much longer than a typical drug-delivery implant.
“We’re using this type of motion to extend the lifetime and the efficacy of these implanted reservoirs that can deliver drugs like insulin, and we think this platform can be extended beyond this application,” says Ellen Roche, senior author of the study along with her former postdoc Eimer Dolan, now a faculty member at the National University of Ireland at Galway.
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