Self-severing circuits facilitate passage of ingestible electronic sensor-guided therapeutics
Healy, S.; Abdigazy, A.; Clinch, M.; Chin, J. Y.; Islam, M. S.; Lee, Z.; Ding, J. Z.; Jackson, J.; Ghanim, R.; Manigault, X.; Ponna, S.; Lee, M. C.; Park, J.; Khan, Y.; Abramson, A.
Show abstract
Ingestible electronics enable the tracking and treatment of gastrointestinal and systemic diseases. However, bulky batteries and circuit boards require large capsules that can result in bowel obstruction, a medical emergency. Here, we engineered a 9 x 26 mm electronic pill capable of triggered severing into tiny pieces with sizes clinically proven to reduce obstruction risk. Our capsule enables multicomponent circuit boards to connect with separately encapsulated powering elements via conductive, interlocking connections. Heat induced softening of polyethylene glycol/polycaprolactone channels activates a spring to separate encapsulated components into inert 9 x 15 mm segments, facilitating intestinal passage. Separation triggers included closed-loop sensors and time-delay circuits. In vivo swine studies demonstrate the ability of our capsules to sense luminal oxygen changes via an optoelectronic sensor, locally trigger upadacitinib delivery, and facilitate safe excretion.
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