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International Journal of Computer Assisted Radiology and Surgery

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22-10-2021 | Original Article

Automatic and accurate needle detection in 2D ultrasound during robot-assisted needle insertion process

Authors: Shihang Chen, Yanping Lin, Zhaojun Li, Fang Wang, Qixin Cao

Published in: International Journal of Computer Assisted Radiology and Surgery | Issue 2/2022

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Abstract

Purpose

Robot-assisted needle insertion guided by 2D ultrasound (US) can effectively improve the accuracy and success rate of clinical puncture. To this end, automatic and accurate needle-tracking methods are important for monitoring puncture processes, avoiding the needle deviating from the intended path, and reducing the risk of injury to surrounding tissues. This work aims to develop a framework for automatic and accurate detection of an inserted needle in 2D US image during the insertion process.

Methods

We propose a novel convolutional neural network architecture comprising of a two-channel encoder and single-channel decoder for needle segmentation using needle motion information extracted from two adjacent US image frames. Based on the novel network, we further propose an automatic needle detection framework. According to the prediction result of the previous frame, a region of interest of the needle in the US image was extracted and fed into the proposed network to achieve finer and faster continuous needle localization.

Results

The performance of our method was evaluated based on 1000 pairs of US images extracted from robot-assisted needle insertions on freshly excised bovine and porcine tissues. The needle segmentation network achieved 99.7% accuracy, 86.2% precision, 89.1% recall, and an F₁-score of 0.87. The needle detection framework successfully localized the needle with a mean tip error of 0.45 ± 0.33 mm and a mean orientation error of 0.42° ± 0.34° and achieved a total processing time of 50 ms per image.

Conclusion

The proposed framework demonstrated the capability to realize robust, accurate, and real-time needle localization during robot-assisted needle insertion processes. It has a promising application in tracking the needle and ensuring the safety of robotic-assisted automatic puncture during challenging US-guided minimally invasive procedures.

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Soni NJ, Franco-Sadud R, Schnobrich D, Dancel R, Tierney DM, Salame G, Restrepo MI, McHardy P (2016) Ultrasound guidance for lumbar puncture. Neurol Clin Pract 6(4):358–368CrossRef

Chen SH, Wang F, Lin YP, Shi QS, Wang YL (2021) Ultrasound-guided needle insertion robotic system for percutaneous puncture. Int J Comput Assist Radiol Surg 16(3):475–484CrossRef

Morse J, Terrasini N, Wehbe M, Philippona C, Zaouter C, Cyr S, Hemmerling TM (2014) Comparison of success rates, learning curves, and inter-subject performance variability of robot-assisted and manual ultrasound-guided nerve block needle guidance in simulation. Br J Anaesth 112(6):1092–1097CrossRef

Zhao Y, Shen Y, Bernard A, Cachard C, Liebgott H (2017) Evaluation and comparison of current biopsy needle localization and tracking methods using 3D ultrasound. Ultrasonics 73:206–220CrossRef

Zhao Y, Liebgott H, Cachard C (2015) Comparison of the existing tool localisation methods on two-dimensional ultrasound images and their tracking results. IET Contr Theory Appl 9(7):1180–1180CrossRef

Zhao Z, Tse ZTH (2019) An electromagnetic tracking needle clip: an enabling design for low-cost image-guided therapy. Minim Invasive Ther Allied Technol 28(3):165–171CrossRef

Xia WF, West SJ, Finlay MC, Mari JM, Ourselin S, David AL, Desjardins AE (2017) Looking beyond the imaging plane: 3D needle tracking with a linear array ultrasound probe. Sci Rep 7:3674. https://doi.org/10.1038/s41598-017-03886-4CrossRefPubMedPubMedCentral

Ayvali E, Desai JP (2015) Optical flow-based tracking of needles and needle-tip localization using circular hough transform in ultrasound images. Ann Biomed Eng 43(8):1828–1840CrossRef

Barva M, Uhercik M, Mari JM, Kybic J, Duhamel JR, Liebgott H, Hlavac V, Cachard C (2008) Parallel integral projection transform for straight electrode localization in 3-D ultrasound images. IEEE Trans Ultrason Ferroelectr Freq Control 55(7):1559–1569CrossRef

10.

Mathiassen K, Dall’Alba D, Muradore R, Fiorini P, Elle OJ (2017) Robust real-time needle tracking in 2-D ultrasound images using statistical filtering. IEEE Trans Control Syst Technol 25(3):966–978CrossRef

11.

Kaya M, Bebek O (2014) Needle localization using Gabor filtering in 2D ultrasound images. In: IEEE international conference on robotics and automation (ICRA), pp 4881–4886

12.

Zhao Y, Cachard C, Liebgott H (2013) Automatic needle detection and tracking in 3D ultrasound using an ROI-based RANSAC and Kalman method. Ultrason Imaging 35(4):283–306CrossRef

13.

Beigi P, Rohling R, Salcudean SE, Ng GC (2016) Spectral analysis of the tremor motion for needle detection in curvilinear ultrasound via spatiotemporal linear sampling. Int J Comput Assist Radiol Surg 11(6):1183–1192CrossRef

14.

Litjens G, Kooi T, Bejnordi BE, Setio AAA, Ciompi F, Ghafoorian M, van der Laak JAWM, van Ginneken B, Sanchez CI (2017) A survey on deep learning in medical image analysis. Med Image Anal 42:60–88CrossRef

15.

Chen AI, Balter ML, Maguire TJ, Yarmush ML (2020) Deep learning robotic guidance for autonomous vascular access. Nat Mach Intell 2(2):104–115CrossRef

16.

Park I, Kim HK, Chung WK, Kim K (2020) Deep learning based real-time OCT image segmentation and correction for robotic needle insertion systems. IEEE Robot Autom Let 5(3):4517–4524CrossRef

17.

Maris B, Tenga C, Vicario R, Palladino L, Murr N, De Piccoli M, Calanca A, Puliatti S, Micali S, Tafuri A, Fiorini P (2021) Toward autonomous robotic prostate biopsy: a pilot study. Int J Comput Assist Radiol Surg 16(8):1393–1401CrossRef

18.

Mwikirize C, Nosher JL, Hacihaliloglu I (2018) Convolution neural networks for real-time needle detection and localization in 2D ultrasound. Int J Comput Assist Radiol Surg 13(5):647–657CrossRef

19.

Lee JY, Islam M, Woh JR, Washeem TSM, Ngoh LYC, Wong WK, Ren H (2020) Ultrasound needle segmentation and trajectory prediction using excitation network. Int J Comput Assist Radiol Surg 15(3):437–443CrossRef

20.

Pourtaherian A, Ghazvinian Zanjani F, Zinger S, Mihajlovic N, Ng GC, Korsten HHM, de With PHN (2018) Robust and semantic needle detection in 3D ultrasound using orthogonal-plane convolutional neural networks. Int J Comput Assist Radiol Surg 13(9):1321–1333CrossRef

21.

Arif M, Moelker A, van Walsum T (2019) Automatic needle detection and real-time Bi-planar needle visualization during 3D ultrasound scanning of the liver. Med Image Anal 53:104–110CrossRef

22.

Ronneberger O, Fischer P, Brox T (2015) U-Net: convolutional networks for biomedical image segmentation. In: Medical image computing and computer-assisted intervention (MICCAI), pp 234–241

23.

Milletari F, Navab N, Ahmadi SA (2016) V-Net: fully convolutional neural networks for volumetric medical image segmentation. In: Proceedings of 2016 fourth international conference on 3d vision (3DV), pp 565–571

24.

Kingma DP, Ba JL (2015) Adam: a method for stochastic optimization. In: Proceedings of the 3rd international conference in learning representations (ICLR)

Title: Automatic and accurate needle detection in 2D ultrasound during robot-assisted needle insertion process
Authors: Shihang Chen
Yanping Lin
Zhaojun Li
Fang Wang
Qixin Cao
Publication date: 22-10-2021
Publisher: Springer International Publishing
Published in: International Journal of Computer Assisted Radiology and Surgery / Issue 2/2022
Print ISSN: 1861-6410
Electronic ISSN: 1861-6429
DOI: https://doi.org/10.1007/s11548-021-02519-6

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Abstract

Purpose

Methods

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Conclusion

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