3D Ultrasound-Guided Motion Compensation System for Beating Heart Mitral Valve Repair

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Abstract. Beating heart intracardiac procedures promise significant benefits for patients, however, the fast motion of the heart poses serious challenges to surgeons. We present a new 3D ultrasound-guided motion (3DUS) compensation system that synchronizes instrument motion with the heart. The system utilizes the fact that the motion of some intracardiac structures, including the mitral valve annulus, is largely constrained to translation along one axis. This allows the development of a real-time 3DUS tissue tracker which we integrate with a 1 degree-of-freedom actuated surgical instrument, real-time 3DUS instrument tracker, and pre

Shelten G. Yuen, Samuel B. Kesner, Nikolay V. Va

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Instrument Motion | Medical Imaging | MICCAI 2008 | Real-time 3DUS Instrument | Ultrasound-guided Motion |

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Added	06 Nov 2009
Updated	06 Nov 2009
Type	Conference
Year	2008
Where	MICCAI
Authors	Shelten G. Yuen, Samuel B. Kesner, Nikolay V. Vasilyev, Pedro J. del Nido, Robert D. Howe

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3D Ultrasound-Guided Motion Compensation System for Beating Heart Mitral Valve Repair

Instrument Motion | Medical Imaging | MICCAI 2008 | Real-time 3DUS Instrument | Ultrasound-guided Motion |

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