The smart threads represent a true tour-de-force effort that involved nanotechnology, electronics, and microfluidics networking. By coating conductive threads with physical and chemical sensors, the team succeeded in a new diagnostic platform that can be sutured through layers of tissues in 3 dimension and collect diagnostic data in real-time.
"The ability to suture a thread-based diagnostic device intimately in a tissue or organ environment in three dimensions adds a unique feature that is not available with other flexible diagnostic platforms," said Sameer Sonkusale, director of the interdisciplinary Nano Lab in the Department of Electrical and Computer Engineering at Tufts School of Engineering, and senior study author.
The team reported the smart threads could "interface intimately with biological tissues in three dimensions," meaning the thin, flexible threads can conform to different tissue layers and complex organs.
And although it seems like smart threads could be an expensive endeavor that won’t be feasible due to costs, the team reports the materials in their invention are relatively inexpensive. By contrast, other available implantable devices, like smart insulin patches, are quite costly.
As if those feats aren’t enough, the smart thread may also be adapted to not only sense, but treat. “Analytes can be delivered directly to tissue by using thread’s natural wicking properties,” said Pooria Mostafalu, first author of the study.
“We think thread-based devices could potentially be used as smart sutures for surgical implants, smart bandages to monitor wound healing, or integrated with textile or fabric as personalized health monitors and point-of-care diagnostics," said Sonkusale. But there are plenty of work left to do before surgeons are using smart threads in the OR. One main concern that’s yet to be fully tested is the biocompatibility of the thread in patient tissues.
Additional source: Tufts press release