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SURGICAL

Ultrasound-guided stabilization of a robotically-actuated delivery sheath (RADS) for beating heart mitral valve motions

Gustaaf J. Vrooijink, Mylène P. Jansen, Manon L. Tolhuisen, Jan G. Grandjean, Sarthak Misra

Year
2016
Citations
2

Abstract

Minimally invasive mitral valve (MV) repair surgery significantly reduces trauma compared to an open heart procedure, which enables fast recovery and treatment to high-risk patients. However, limited vision and dexterity of the instrument at the treatment location poses a challenge for minimally invasive surgery. Additionally, MV repair surgery performed without cardiopulmonary bypass often requires the surgeon to deal with beating heart motions. By autonomous stabilization of the instrument, a virtually-still treatment location could be provided. This allows the surgeon to perform surgery as if the heart was stopped. In this study, we present and evaluate a framework that assists the surgeon by stabilizing the instrument for the beating heart MV motions. Our work contributes a robotically-actuated delivery sheath (RADS), which is stabilized in a realistic and functional MV model embedded in a heart motion system. The heart motion system is mounted on a six degrees-of-freedom Stewart platform, which reproduces beating heart MV motions based on pre-operative patient data obtained from three-dimensional magnetic resonance and ultrasound images. Experimental results shows stabilization of the RADS in a beating heart MV model with a mean absolute tracking error of 1.31 mm. The presented framework for stabilization of the RADS in the beating heart could be applicable to a wide variety of existing and potential future cardiovascular interventions.

Keywords

Cardiopulmonary bypassMitral valveInvasive surgerySurgical instrumentMagnetic resonance imagingUltrasoundMitral valve repairMedicineComputer scienceBiomedical engineering

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