Robot assisted stapedotomy ex vivo with an active handheld instrument

Micron is a fully handheld active micromanipulator that helps to improve position accuracy and precision in microsurgery by cancelling hand tremor. This work describes adaptation, tuning, and testing of the Micron system for stapedotomy, a microsurgical procedure performed in the middle ear to restore hearing that requires accurate manipulation in narrow spaces. Two end-effectors, a handle, and a brace (or rest) were designed and prototyped. The control system was adapted for the new hardware. The system was tested ex vivo in stapedotomy procedure comparing manually-performed and Micron-assisted surgical tasks. Tremor amplitude was found to be reduced significantly. Further testing is needed in order to obtain statistically significant results regarding other parameters dealing with regularity of the fenestra shap

Robot Assisted Stapedotomy With an Active Handheld Instrument

Robotic-assisted surgery is a rapid growing field, facing challenging tasks and demands from surgeons, in particular in minimally invasive and microsurgery. However many of the present robotic systems are not well integrated in the surgical workflow, too big or too expensive. Micron is an innovative fully handheld active micromanipulator that helps surgeons to improve position accuracy and precision in microsurgery by cancelling the normal hand tremor. This thesis proposes an improvement and development of Micron, considering as target the stapedotomy procedure, microsurgery performed at the middle ear that aims to restore the hearing impairments. Two tools, a handle and a brace were designed and prototyped and the control was adapted; at the end the entire system was assessed through some experiments. Promising results were obtained in terms of tremor cancellation but further research is needed in order to reach clear advantages.