A “pickup” stereoscopic camera with visual-motor aligned control for the da Vinci surgical system: a preliminary study

Purpose The current state-of-the-art surgical robotic systems use only a single endoscope to view the surgical field. Research has been conducted to introduce additional cameras to the surgical system, giving rise to new camera angles that cannot be achieved using the endoscope alone. While this add...

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Bibliographic Details
Published in:International journal for computer assisted radiology and surgery 2019-07, Vol.14 (7), p.1197-1206
Main Authors: Avinash, Apeksha, Abdelaal, Alaa Eldin, Mathur, Prateek, Salcudean, Septimiu E.
Format: Article
Language:English
Subjects:
Alignment
Cameras
Completion time
Computer Imaging
Computer Science
Control systems
Coordinates
Curricula
Endoscopes
Health Informatics
Imaging
Medicine
Medicine & Public Health
Misalignment
Original Article
Pattern Recognition and Graphics
Radiology
Robotics
Stereoscopy
Surgery
Surgical instruments
Vision
Visual effects
Visual observation
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Summary:Purpose The current state-of-the-art surgical robotic systems use only a single endoscope to view the surgical field. Research has been conducted to introduce additional cameras to the surgical system, giving rise to new camera angles that cannot be achieved using the endoscope alone. While this additional visualization certainly aids in surgical performance, current systems lack visual-motor compatibility with respect to the additional camera views. We propose a new system that overcomes this limitation. Methods In this paper, we introduce a novel design of an additional “pickup” camera that can be integrated into the da Vinci Surgical System. We also introduce a solution to work comfortably in the various arbitrary views this camera provides by eliminating visual-motor misalignment. This is done by changing the working frame of the surgical instruments to work with respect to the coordinate system at the “pickup” camera instead of the endoscope. Results Human user trials ( N = 14 ) were conducted to evaluate the effect of visual-motor alignment with respect to the “pickup” camera on surgical performance. An inanimate surgical peg transfer task from the validated Fundamentals of Laparoscopic Surgery (FLS) Training Curriculum was used, and an improvement of 73% in task completion time and 80% in accuracy was observed with the visual-motor alignment over the case without it. Conclusion Our study shows that there is a requirement to achieve visual-motor alignment when utilizing views from external cameras in current clinical surgical robotics setups. We introduce a complete system that provides additional camera views with visual-motor aligned control. Such a system would be useful in existing surgical procedures and could also impact surgical planning and navigation.
ISSN:1861-6410
1861-6429
DOI:10.1007/s11548-019-01955-9