Abstract
BackgroundMost currently used surgical robots have no force feedback; the next generation displays forces visually. A novel single-port robotic surgical system called FLEXMIN has been developed. Through an outer diameter of 38 mm, two instruments are teleoperated from a surgeon’s control console including true haptic force feedback. One additional channel incorporates a telescope, another is free for special instrument functions.MethodsThis randomized cross-over study analyzed the effect of haptic feedback on the application of intracorporeal forces. In a standardized experiment setup, the subjects had to draw circles with the surgical robot as gently as possible. The applied forces, the required time spans, and predefined error rates were measured.ResultsWithout haptic feedback, the maximum forces (median/IQR) were 6.43 N/2.96 N. With haptic feedback, the maximum forces were lower (3.57 N/1.94 N, p < 0.001). Also, the arithmetic means of the force progression (p < 0.001) and their standard deviations (p < 0.001) were lower. Not significant were the shorter durations and lower error rates. No sequence effect of force or duration was detected. No characteristic learning or fatigue curve was observed.ConclusionsIn the experiment setup, the true haptic force feedback can reduce the applied intracorporeal robotic force to one-half when considering the aspects maximum, means, and standard deviation. Other test tasks are needed to validate the influence of force feedback on surgical efficiency and safety.
Highlights
Most currently used surgical robots have no force feedback; the generation displays forces visually
The presented study was conducted with the FLEXMIN system (Fig. 1), a single-port surgical robot (outer shaft diameter 38 mm, two instruments with four degrees of freedom, Simulink real-time target machine, sampling rate 4 kHz, hardware connected via EtherCAT bus, bandwidth of force sensor ~ 6 kHz, and delay between force measurement and feedback (1 ms)
The results of the first Pegboard task do not allow any conclusions to be drawn regarding force or time expended by the subjects in the test phase, either with or without haptic feedback
Summary
Most currently used surgical robots have no force feedback; the generation displays forces visually. Through an outer diameter of 38 mm, two instruments are teleoperated from a surgeon’s control console including true haptic force feedback. Methods This randomized cross-over study analyzed the effect of haptic feedback on the application of intracorporeal forces. In a standardized experiment setup, the subjects had to draw circles with the surgical robot as gently as possible. Results Without haptic feedback, the maximum forces (median/IQR) were 6.43 N/2.96 N. The maximum forces were lower (3.57 N/1.94 N, p < 0.001). The arithmetic means of the force progression (p < 0.001) and their standard deviations (p < 0.001) were lower. Conclusions In the experiment setup, the true haptic force feedback can reduce the applied intracorporeal robotic force to one-half when considering the aspects maximum, means, and standard deviation. Other test tasks are needed to validate the influence of force feedback on surgical efficiency and safety
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