Nerve location detection

Technologies are generally provided for identifying and marking the location of the laryngeal nerve prior to tissue dissection. A frame may include two multi-electrode stimulating probes, a slider with a guide movable between the two probes, and a marker probe including an anchor. The two probes sup...

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Hauptverfasser:	Leschinsky Boris, Williams Jonathan R
Format:	Patent
Sprache:	eng
Schlagworte:	DIAGNOSIS ELECTROTHERAPY HUMAN NECESSITIES HYGIENE IDENTIFICATION MAGNETOTHERAPY MEDICAL OR VETERINARY SCIENCE RADIATION THERAPY SURGERY ULTRASOUND THERAPY
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creator	Leschinsky Boris Williams Jonathan R
description	Technologies are generally provided for identifying and marking the location of the laryngeal nerve prior to tissue dissection. A frame may include two multi-electrode stimulating probes, a slider with a guide movable between the two probes, and a marker probe including an anchor. The two probes supported on the frame may be inserted into tissue in a vicinity of the nerve, and a controller may sequentially stimulate the electrodes on each probe and measure electromyography (EMG) responses from each stimulated electrode. The controller may determine the nerve's location relative to the probes based on the measured EMG responses, where the location may include a lateral position between the probes and an estimated depth. The slider may be moved to the lateral position and the marker probe may be inserted through the slider to the determined depth. The anchor may be deployed next to the nerve to indicate the nerve location.
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A frame may include two multi-electrode stimulating probes, a slider with a guide movable between the two probes, and a marker probe including an anchor. The two probes supported on the frame may be inserted into tissue in a vicinity of the nerve, and a controller may sequentially stimulate the electrodes on each probe and measure electromyography (EMG) responses from each stimulated electrode. The controller may determine the nerve's location relative to the probes based on the measured EMG responses, where the location may include a lateral position between the probes and an estimated depth. The slider may be moved to the lateral position and the marker probe may be inserted through the slider to the determined depth. 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A frame may include two multi-electrode stimulating probes, a slider with a guide movable between the two probes, and a marker probe including an anchor. The two probes supported on the frame may be inserted into tissue in a vicinity of the nerve, and a controller may sequentially stimulate the electrodes on each probe and measure electromyography (EMG) responses from each stimulated electrode. The controller may determine the nerve's location relative to the probes based on the measured EMG responses, where the location may include a lateral position between the probes and an estimated depth. The slider may be moved to the lateral position and the marker probe may be inserted through the slider to the determined depth. The anchor may be deployed next to the nerve to indicate the nerve location.</abstract><oa>free_for_read</oa></addata></record>
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subjects	DIAGNOSIS ELECTROTHERAPY HUMAN NECESSITIES HYGIENE IDENTIFICATION MAGNETOTHERAPY MEDICAL OR VETERINARY SCIENCE RADIATION THERAPY SURGERY ULTRASOUND THERAPY
title	Nerve location detection
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