Researchers at NYU Abu Dhabi (NYUAD) have created an ingestible device that uses light to activate gut neurons, offering a novel, non-invasive approach to studying and potentially treating digestive and metabolic disorders
The technology, named ICOPS (Ingestible Controlled Optogenetic Stimulation), was developed by Khalil Ramadi, Assistant Professor of Bioengineering at NYU Abu Dhabi and NYU Tandon, along with his team. ICOPS delivers focused light directly into the gut to activate nerve cells, leveraging optogenetics—a technique that makes specific neurons light-sensitive for precise control.
Published in Advanced Materials Technologies, the research demonstrates how ICOPS could be used to map and control the intestinal nervous system without surgery. “If you look at how we do any study trying to map neural function in the gut, it is all extremely crude,” said Ramadi. “We just do not have good tools for it.”
Current approaches often require invasive surgery to implant optical fibers. ICOPS avoids this by using an LED-equipped capsule that patients swallow after scientists modify certain gut neurons to respond to light. “You can go in, transfect a certain subset of cells to be light sensitive, and then swallow this light pill whenever you want to activate those cells,” Ramadi explained.
The capsule works without a battery, receiving power wirelessly through magnetic induction from an external transmitter. “What makes this capsule unique is that it was entirely fabricated in-house using 3D printing, without the need for cleanroom facilities,” said Postdoctoral Associate at NYUAD and lead author Mohamed Elsherif. “It can operate wirelessly in freely moving animals, enabling studies that were not possible with traditional tethered or invasive approaches.”
Beyond research, ICOPS could enable new treatments for gut motility disorders, metabolic diseases, and eating disorders by controlling neural activity in specific regions of the gut. Future versions could also provide electrical stimulation and targeted drug delivery.
In addition to Ramadi and Elsherif, co-authors include Rawan Badr El-Din, Zhansaya Makhambetova, Heba Naser, Rahul Singh, Keonghwan Oh, Revathi Sukesan, and Maylis Boitet (NYUAD), and Sohmyung Ha (NYUAD and NYU Tandon). The work was supported by the NYUAD Research Institute Award to the Research Center for Translational Medical Devices (CENTMED).
NYU Abu Dhabi has established more than 90 faculty labs and projects, producing over 9,200 internationally recognized research publications. Times Higher Education ranks NYU among the world’s top 35 universities, making NYUAD the highest globally ranked university in the UAE.
Source: NYUAD
