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Contributors
Ellen Roche
Assunta Fabozzo
Yuhan Lee
Panagiotis Polygerinos
Lucia Schuster
Ingeborg Friehs
William Whyte
Alejandra Berazaluce
Alejandra Bueno
Nora Lang
Maria Pereira
Erix Feins
Steven Wasserman
Eoin O'Cearbhaill
Nikolay Vasilyev
David Mooney
Jeffrey Karp
Pedro Del Nido
Conor Walsh
Project brief
Closing small defects in the body typically requires stitching of tissues during surgery. Toward a minimally invasive approach, we engineered a balloon catheter with a reflective surface coating that could be used to adhere biodegradable patches to tissues. The device unfolds the patch and its adhesive, delivers ultraviolet (UV) light, and then applies pressure to stabilize the adhesive as the light cures the polymer. We demonstrated catheter-mediated application of the photocurable polymer patch in vivo in rat tissue, with minimal inflammation and complete animal survival, as well as in a challenging septal defect in the beating hearts of pigs. The device was also used to seal porcine stomach ulcers and abdominal hernias ex vivo, suggesting versatility of this approach in repairing defects more easily and atraumatically than sutures.
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