Home /Research /The Click-On gamma probe, a second-generation tethered robotic gamma probe that improves dexterity and surgical decision-making
SURGICAL

The Click-On gamma probe, a second-generation tethered robotic gamma probe that improves dexterity and surgical decision-making

Samaneh Azargoshasb, Simon van Alphen, Leon J. Slof, Giuseppe Rosiello, Stefano Puliatti, Sven I. van Leeuwen, Krijn H.M. Houwing, Michael Boonekamp, Jeroen Verhart, Paolo Dell’Oglio, Jos A. van der Hage, Matthias N. van Oosterom, Fijs W. B. van Leeuwen

Year
2021
Citations
23
Access
Open access

Abstract

Abstract Purpose Decision-making and dexterity, features that become increasingly relevant in (robot-assisted) minimally invasive surgery, are considered key components in improving the surgical accuracy. Recently, DROP-IN gamma probes were introduced to facilitate radioguided robotic surgery. We now studied if robotic DROP-IN radioguidance can be further improved using tethered Click-On designs that integrate gamma detection onto the robotic instruments themselves. Methods Using computer-assisted drawing software, 3D printing and precision machining, we created a Click-On probe containing two press-fit connections and an additional grasping moiety for a ProGrasp instrument combined with fiducials that could be video tracked using the Firefly laparoscope. Using a dexterity phantom, the duration of the specific tasks and the path traveled could be compared between use of the Click-On or DROP-IN probe. To study the impact on surgical decision-making, we performed a blinded study, in porcine models, wherein surgeons had to identify a hidden 57 Co-source using either palpation or Click-On radioguidance. Results When assembled onto a ProGrasp instrument, while preserving grasping function and rotational freedom, the fully functional prototype could be inserted through a 12-mm trocar. In dexterity assessments, the Click-On provided a 40% reduction in movements compared to the DROP-IN, which converted into a reduction in time, path length, and increase in straightness index. Radioguidance also improved decision-making; task-completion rate increased by 60%, procedural time was reduced, and movements became more focused. Conclusion The Click-On gamma probe provides a step toward full integration of radioguidance in minimal invasive surgery. The value of this concept was underlined by its impact on surgical dexterity and decision-making.

Keywords

Imaging phantomComputer scienceFiducial markerArtificial intelligenceRobotic surgeryBiomedical engineeringSimulationComputer visionMedicineNuclear medicine

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