Detecting the cancerous growth margin and achieving a negative margin is one of the challenges that surgeons face during cancer procedures. A smart electrosurgical knife with integrated optical fibers has been designed previously to enable real-time use of diffuse reflectance spectroscopy for intraoperative margin assessment. In this paper the thermal effect of the electrosurgical knife on the tissue sensing is investigated. Porcine tissues and phantoms were used for investigating the performance of the smart electrosurgical knife after electrosurgery. The fat-to-water content ratio (F/W-ratio) served as the discriminative parameter for distinguishing tissues and tissue mimicking phantoms with varying fat content. The F/W-ratio of tissues and phantoms was measured with the smart electrosurgical knife before and after 14 minutes of electrosurgery. Additionally, a layered porcine tissue and phantom were sliced and measured top to bottom with the smart electrosurgical knife. Mapping the thermal activity of the electrosurgical knife’s electrode during animal tissue electrosurgery revealed temperatures exceeding 400°C. Electrosurgery for 14 minutes had no impact on the device’s accurate detection of the F/W-ratio. The smart electrosurgical knife enables real-time tissue detection and predicts the fat content of the next layer from 4 mm ahead. We concluded that the design of the smart electrosurgical knife outlined in this paper demonstrates its potential utility for tissue detection during electrosurgery. Our findings not only affirm the resilience and reliability of the smart electrosurgical knife in challenging surgical conditions but also underscore its potential significance for future applications. In the future, the smart electrosurgical knife could be a valuable intraoperative margin assessment tool, aiding surgeons in detecting tumor borders and achieving negative margins.
Enhancing Intraoperative Tissue Identification: Investigating a Smart Electrosurgical Knife’s Functionality During Electrosurgery
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