Article Synopsis
- Researchers are developing flexible electrode arrays to interface with peripheral nerves for diagnosing and treating neurological disorders, reducing the need for complex and risky placement surgeries.
- These new nerve cuffs combine soft robotic actuators and low-impedance microelectrodes, enabling them to conform and actively wrap around fragile nerves with minimal voltage requirements.
- Tested on rats, these cuffs successfully create a reliable and self-closing connection with the sciatic nerve, paving the way for less invasive methods of monitoring nerve activity and improving bioelectronic interfaces.
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Article Abstract
Electrode arrays that interface with peripheral nerves are used in the diagnosis and treatment of neurological disorders; however, they require complex placement surgeries that carry a high risk of nerve injury. Here we leverage recent advances in soft robotic actuators and flexible electronics to develop highly conformable nerve cuffs that combine electrochemically driven conducting-polymer-based soft actuators with low-impedance microelectrodes. Driven with applied voltages as small as a few hundreds of millivolts, these cuffs allow active grasping or wrapping around delicate nerves. We validate this technology using in vivo rat models, showing that the cuffs form and maintain a self-closing and reliable bioelectronic interface with the sciatic nerve of rats without the use of surgical sutures or glues. This seamless integration of soft electrochemical actuators with neurotechnology offers a path towards minimally invasive intraoperative monitoring of nerve activity and high-quality bioelectronic interfaces.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11230894 | PMC |
| http://dx.doi.org/10.1038/s41563-024-01886-0 | DOI Listing |
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