The Sensor You Swallow

By Patrick L. Kennedy

Thanks to the work of Assistant Professor Rabia Yazicigil (ECE) and her colleagues at MIT, Crohn’s and other bowel disease sufferers might someday skip the arduous annual endoscopy and instead swallow a pill-sized device that would literally shed light on what’s going on inside the gastrointestinal (GI) tract.

MIT researchers previously developed a 1.5-inch capsule that contained a computer chip, a wireless transmitter and genetically engineered bacteria that light up when they come in contact with blood. The capsule could detect bleeding in the GI tract and send an alert to a smart phone.

Headshot of Dr. Rabia Yazicigl
Rabia Yazicigil (ECE)

Yazicigil and her students at Boston University’s Wireless Integrated Systems and Extreme Circuits (WISE-Circuits) Laboratory, in collaboration with MIT, have decreased the capsule’s size to about that of a chickpea by designing an ultra-sensitive, nanowatt-level power, integrated photodetector and readout system on a chip. This transformative size reduction makes this smart pill much safer as it passes through the digestive system.

The team presented its proof of concept at the 2021 Institute of Electrical and Electronics Engineers (IEEE) Custom Integrated Circuits Conference this past spring. The project’s principal investigators are Yazicigil and MIT researchers Timothy Lu and Giovanni Traverso. Yazicigil’s PhD student Qijun Liu presented the paper at the IEEE event.

About three million adults in the U.S. suffer from inflammatory bowel diseases (IBD), such as Crohn’s or ulcerative colitis. These conditions can cause severe diarrhea, fatigue, weight loss and malnutrition, and they increase the risk of colon cancer.

Doctors can search the GI tract for warning signs with a colonoscopy, but that only happens every year or two, and the preparation is not pleasant. Moreover, says Yazicigil, “an endoscopy is an image-based system—it doesn’t really measure the molecular disease biomarkers.”

A stool sample does measure biomarkers, or it should—but some of the most important biomarkers have degraded or have been absorbed by the time they exit the system, so the test fails to pick up on them.

The ingestible monitors are noninvasive—the application would be as simple as swallowing a pill—and they monitor the gut in real time. The bacterial sensors light up when they sense their target biomarkers; a chip converts this bioluminescence into electrical signals; and the data is sent to a nearby smart phone or tablet. “Think of this gadget as a wearable, but for inside the body,” says Yazicigil.

Qijun Liu

The primary challenge confronting BU’s WISE-Circuits Lab was the device’s power consumption. To conserve power, they designed a chip that switches on every 10 minutes for 16 seconds to take measurements, and for a mere 12 milliseconds to transmit the data.

“That discrete time approach rather than a continuous time approach saves us some power,” says Liu, the ENG PhD student.

The WISE-Circuits Lab team, working with the group at MIT who originated the capsule, have done in vitro testing of the streamlined version and are planning in vivo testing in animal models. “In vivo testing is critical for safety, and previous attempts with off-the-shelf components and large batteries made devices too large to be safe,” says Miguel Jimenez, research scientist at MIT. “The Yazicigil group’s custom, low-power design is an elegant solution to this challenge.”

The project has been a true cross-disciplinary collaboration, including efforts by the groups at MIT to encase the monitor in a semipermeable coating that protects the bacteria from the harsh GI environment while allowing in the target biomarkers. Other collaborators included Anantha Chandrakasan, dean of the MIT School of Engineering, and Phillip Nadeau, senior research scientist at Analog Devices.

“I think that’s very powerful,” says Yazicigil. “By collaborating with people from diverse backgrounds, we might actually contribute to society and help people better manage their conditions.”