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Towards robot-assisted vitreoretinal surgery: Force-sensing micro-forceps integrated with a handheld micromanipulator

Berk Gonenc, Ellen Feldman, Peter Gehlbach, James T. Handa, Russell H. Taylor, Iulian Iordachita

Year
2014
Citations
28

Abstract

In vitreoretinal practice, controlled tremor-free motion and limitation of applied forces to the retina are two highly desired features. This study addresses both requirements with a new integrated system: a force-sensing motorized micro-forceps combined with an active tremor-canceling handheld micromanipulator, known as Micron. The micro-forceps is a 20 Ga instrument that is mechanically decoupled from its handle and senses the transverse forces at its tip with an accuracy of 0.3 mN. Membrane peeling trials on a bandage phantom revealed a 60-95% reduction in the 2-20 Hz band in both the tip force and position spectra, while peeling forces remained below the set safety threshold.

Keywords

MicromanipulatorForcepsImaging phantomMobile deviceComputer scienceRobotBiomedical engineeringVitreoretinal surgeryMaterials scienceAcoustics

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