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A microelectrode array that provides precise 2D maps of spinal cord electrophysiology during surgery

A microelectrode array that provides precise 2D maps of spinal cord electrophysiology during surgery

A combined team of researchers from the University of California and Oregon Health and Science University, has developed a microelectrode array to precisely monitor electrophysiology during spinal surgery. They have published their work in the journal Science Translational Medicine.

Spinal surgery is a delicate operation. Surgeons not only have to fix what is wrong, but must do so without damaging nerves, which can lead to impairments in patients. One area of particular concern is tumor removal, but even just conducting biopsies is risky. Spinal surgeons currently use intraoperative neuromonitoring devices that monitor electrical activity in the nervous system. With such devices, electrodes are placed on the back muscles and the scalp. Unfortunately, they do not provide precise information, which is what surgeons need. In many instances, they serve only to alert the surgeon to damage that has already occurred. In this new effort, the researchers have attempted to improve on the system by creating a device that allows for more precise electrophysiology monitoring during surgery.

The new device consists of an array of electrodes that the surgeon places directly onto the spinal column near the main surgery site. The electrodes detect electrophysical responses from the spinal nerves and transmit them to a computer that coverts them to a submillimeter-precision 2D map, which the surgeon can consult in real time as they carry out a surgical procedure.


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The researchers tested their new device during six actual procedures on volunteers. They found that their device provided higher sensitivity than current devices and outperformed them in assisting the surgeon during spinal surgeries.

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