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Beating‐heart registration for organ‐mounted robots

Nathan A. Wood, David Schwartzman, Michael J. Passineau, Robert J. Moraca, Marco A. Zenati, Cameron N. Riviere

Year
2018
Citations
3

Abstract

BACKGROUND: Organ-mounted robots address the problem of beating-heart surgery by adhering to the heart, passively providing a platform that approaches zero relative motion. Because of the quasi-periodic deformation of the heart due to heartbeat and respiration, registration must address not only spatial registration but also temporal registration. METHODS: Motion data were collected in the porcine model in vivo (N = 6). Fourier series models of heart motion were developed. By comparing registrations generated using an iterative closest-point approach at different phases of respiration, the phase corresponding to minimum registration distance is identified. RESULTS: The spatiotemporal registration technique presented here reduces registration error by an average of 4.2 mm over the 6 trials, in comparison with a more simplistic static registration that merely averages out the physiological motion. CONCLUSIONS: An empirical metric for spatiotemporal registration of organ-mounted robots is defined and demonstrated using data from animal models in vivo.

Keywords

HeartbeatImage registrationComputer scienceMetric (unit)Computer visionArtificial intelligenceRobot

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