Researchers develop injectable device to control nerves without surgery
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Researchers from NYU Abu Dhabi, in collaboration with Cleveland Clinic Abu Dhabi, have developed a tiny, injectable medical device that introduces a new approach to treating chronic pain and movement disorders by controlling nerve activity without the need for surgery, batteries or wires, offering a simpler and less invasive way to treat neurological conditions.
The device, about the size of a small seed, can be injected into the body using a standard needle and placed near a target nerve. Once in position, it delivers controlled electrical signals that influence how the nerve behaves. It is powered wirelessly from outside the body, allowing doctors or patients to adjust its activity in real time.
The research, published in Science Advances, offers an alternative approach that combines precision with minimal invasiveness. This new technology complements existing treatment options, which may include medical implants or medications depending on the patient's condition and needs.
"This work represents a shift in how we think about treating nerve-related conditions," said Prof. Khalil Ramadi, assistant professor of bioengineering at NYU Abu Dhabi and NYU Tandon and the study's senior author.
"By creating a device that can be injected rather than surgically implanted, we are making these therapies simpler, safer and more accessible, while still maintaining precise control over nerve activity."
The device can be tracked using standard medical imaging, such as ultrasound and CT scans, allowing for accurate placement and monitoring. Once deployed, it delivers programmable electrical stimulation, enabling tailored treatments based on patient needs.
"This collaboration with NYU Abu Dhabi reflects our commitment to advancing innovative, clinically relevant research that translates into meaningful improvements in patient care," said Dr. Sawsan Abdel-Razig, chief academic officer at Cleveland Clinic Abu Dhabi.
"By bringing together multidisciplinary expertise, this work highlights how academic partnerships can accelerate the development of safer, less invasive therapies and expand access to advanced treatments for patients."
In laboratory and preclinical testing, the device demonstrated precise control over nerve stimulation and consistent performance under realistic conditions. It also successfully activated nerves in vivo, confirming its potential for real-world applications.
"This technology has the potential to bridge the gap between noninvasive therapies and traditional implants," said Dr. Mohamed Elsherif, research associate at NYU Abu Dhabi and first author of the study. "It opens the door to treatments that are both effective and easy to deliver, which could significantly improve patient care."
By reducing the need for major procedures and simplifying how advanced therapies are delivered, the device could make treatment more accessible while lowering risks and recovery times.
Publication details
An injectable, leadless bioelectronic interface for battery-free wireless peripheral neuromodulation, Science Advances (2026). DOI: 10.1126/sciadv.aeg1437. www.science.org/doi/10.1126/sciadv.aeg1437
Journal information: Science Advances
Key medical concepts
Movement DisordersChronic Pain
Clinical categories
Neurology Provided by New York University Who's behind this story?
Sadie Harley
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Andrew Zinin
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