Real-time 3D curved needle segmentation using combined B-mode and power Doppler ultrasound

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Abstract

This paper presents a real-time segmentation method for curved needles in biological tissue based on analysis of B-mode and power Doppler images from a tracked 2D ultrasound transducer. Mechanical vibration induced by an external voice coil results in a Doppler response along the needle shaft, which is centered around the needle section in the ultrasound image. First, B-mode image analysis is performed within regions of interest indicated by the Doppler response to create a segmentation of the needle section in the ultrasound image. Next, each needle section is decomposed into a sequence of points and transformed into a global coordinate system using the tracked transducer pose. Finally, the 3D shape is reconstructed from these points. The results of this method differ from manual segmentation by 0.71±0.55 mm in needle tip location and 0.38±0.27 mm along the needle shaft. This method is also fast, taking 5-10 ms to run on a standard PC, and is particularly advantageous in robotic needle steering, which involves thin, curved needles with poor echogenicity. © 2014 Springer International Publishing.

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APA

Greer, J. D., Adebar, T. K., Hwang, G. L., & Okamura, A. M. (2014). Real-time 3D curved needle segmentation using combined B-mode and power Doppler ultrasound. In Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) (Vol. 8674 LNCS, pp. 381–388). Springer Verlag. https://doi.org/10.1007/978-3-319-10470-6_48

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