nach oben

International Journal of Computer Assisted Radiology and Surgery

Erschienen in:

18.04.2018 | Original Article

Automatic planning of needle placement for robot-assisted percutaneous procedures

verfasst von: Esia Belbachir, Ehsan Golkar, Bernard Bayle, Caroline Essert

Erschienen in: International Journal of Computer Assisted Radiology and Surgery | Ausgabe 9/2018

Einloggen, um Zugang zu erhalten

Abstract

Purpose

Percutaneous procedures allow interventional radiologists to perform diagnoses or treatments guided by an imaging device, typically a computed tomography (CT) scanner with a high spatial resolution. To reduce exposure to radiations and improve accuracy, robotic assistance to needle insertion is considered in the case of X-ray guided procedures. We introduce a planning algorithm that computes a needle placement compatible with both the patient’s anatomy and the accessibility of the robot within the scanner gantry.

Methods

Our preoperative planning approach is based on inverse kinematics, fast collision detection, and bidirectional rapidly exploring random trees coupled with an efficient strategy of node addition. The algorithm computes the allowed needle entry zones over the patient’s skin (accessibility map) from 3D models of the patient’s anatomy, the environment (CT, bed), and the robot. The result includes the admissible robot joint path to target the prescribed internal point, through the entry point. A retrospective study was performed on 16 patients datasets in different conditions: without robot (WR) and with the robot on the left or the right side of the bed (RL/RR).

Results

We provide an accessibility map ensuring a collision-free path of the robot and allowing for a needle placement compatible with the patient’s anatomy. The result is obtained in an average time of about 1 min, even in difficult cases. The accessibility maps of RL and RR covered about a half of the surface of WR map in average, which offers a variety of options to insert the needle with the robot. We also measured the average distance between the needle and major obstacles such as the vessels and found that RL and RR produced needle placements almost as safe as WR.

Conclusion

The introduced planning method helped us prove that it is possible to use such a “general purpose” redundant manipulator equipped with a dedicated tool to perform percutaneous interventions in cluttered spaces like a CT gantry.

Planning the self-rotation of the needle would be of particular interest for needle bending/steering control, but it is far beyond the scope of the present study.

3D-IRCADb (3D Image Reconstruction for Comparison of Algorithms Database). http://www.ircad.fr/research/3dircadb/. Accessed 15 Oct 2017

iSYS 1. http://interventionalsystems.eu/products/. Accessed 15 Oct 2017

Robio. http://www.perfinthealthcare.com. Accessed 15 Oct 2017

Altrogge I, Preusser T, Kröger T, Büskens C, Pereira P, Schmidt D, Peitgen H (2007) Multiscale optimization of the probe placement for radiofrequency ablation. Acad Radiol 14(11):1310–1324CrossRefPubMed

Baegert C, Villard C, Schreck P, Soler L (2007) Multi-criteria trajectory planning for hepatic radiofrequency ablation. In: Proceedings of MICCAI’07, vol 4791. Springer LNCS, pp 584–592

Bischoff R, Kurth J, Schreiber G, Koeppe R, Albu-Schffer A, Beyer A, Eiberger O, Haddadin S, Stemmer A, Grunwald G, Hirzinger G (2010) The KUKA-DLR lightweight robot arm—a new reference platform for robotics research and manufacturing. In: 41st international symposium on robotics. pp 1–8

Chen CC, Miga M, Galloway R (2009) Optimizing electrode placement using finite-element models in radiofrequency ablation treatment planning. IEEE Trans Biomed Eng 56(2):237–245CrossRefPubMed

Clifford MA, Banovac F, Levy E, Cleary K (2002) Assessment of hepatic motion secondary to respiration for computer assisted interventions. Comput Aided Surg 7(5):291–299CrossRefPubMed

Gottschalk S, Lin MC, Manocha D (1996) OBBTree: a hierarchical structure for rapid interference detection. In: 23rd Annual conference on computer graphics and interactive techniques, SIGGRAPH ’96. ACM, pp 171–180

10.

Hamzé N, Peterlík I, Cotin S, Essert C (2016) Preoperative trajectory planning for percutaneous procedures in deformable environments. Computer Med Imaging Graph 47:16–28CrossRef

11.

Hungr N, Baumann M, Long JA, Troccaz J (2012) A 3-D ultrasound robotic prostate brachytherapy system with prostate motion tracking. IEEE Trans Robot 28(6):1382–1397CrossRef

12.

Korin HW, Ehman RL, Riederer SJ, Felmlee JP, Grimm RC (1992) Respiratory kinematics of the upper abdominal organs: a quantitative study. Magn Reson Med 23(1):172–178CrossRefPubMed

13.

Krieger A, Song SE, Cho NB, Iordachita II, Guion P, Fichtinger G, Whitcomb LL (2013) Development and evaluation of an actuated MRI-compatible robotic system for MRI-guided prostate intervention. IEEE/ASME Trans Mechatron 18(1):273–284CrossRef

14.

Kuffner JJ, LaValle SM (2000) RRT-connect: an efficient approach to single-query path planning. In: Proceedings of IEEE international conference on robotics and automation (ICRA’00), vol 2. pp 995–1001

15.

Masamune K, Sonderegger M, Iseki H, Takakura K, Suzuki M, Dohi T (1995) Robots for stereotactic neurosurgery. Adv Robot 10(4):391–401CrossRef

16.

Maurin B, Bayle B, Piccin O, Gangloff J, de Mathelin M, Doignon C, Zanne P, Gangi A (2008) A patient-mounted robotic platform for CT-scan guided procedures. IEEE Trans Biomed Eng 55(10):2417–2425CrossRefPubMed

17.

Piccin O, Sieffert J, Schmitt F, Barbé L, Meylheuc L, Nageotte F, Bayle B (2016) Design and characterization of a novel needle insertion tool. In: IEEE international conference on biomedical robotics and biomechatronics. pp 266–271

18.

Ren H, Campos-Nanez E, Yaniv Z, Banovac F, Abeledo H, Hata N, Cleary K (2014) Treatment planning and image guidance for radiofrequency ablations of large tumors. IEEE J Biomed Health Inform 18(3):920–928CrossRefPubMed

19.

Schumann C, Rieder C, Haase S, Teichert K, Süss P, Isfort P, Bruners P, Preusser T (2015) Interactive multi-criteria planning for radiofrequency ablation. Int J CARS 10(6):879–889CrossRef

20.

Seitel A, Engel M, Sommer C, Redeleff B, Essert-Villard C, Baegert C, Fangerau M, Fritzsche K, Yung K, Meinzer HP, Maier-Hein L (2011) Computer-assisted trajectory planning for percutaneous needle insertions. Med Phys 38(6):3246–3260CrossRefPubMed

21.

Stoianovici D, Cleary K, Patriciu A, Mazilu D, Stanimir A, Craciunoiu N, Watson V, Kavoussi L (2003) AcuBot: a robot for radiological interventions. IEEE Trans Robot Autom 19(5):927–930CrossRef

22.

Tilak G, Tuncali K, Song SE, Tokuda J, Olubiyi O, Fennessy F, Fedorov A, Penzkofer T, Tempany C, Hata N (2015) 3T MR-guided in-bore transperineal prostate biopsy: a comparison of robotic and manual needle-guidance templates. J Magn Reson Imaging 42(1):63–71CrossRefPubMed

23.

Walsh CJ, Hanumara NC, Slocum AH, Shepard JA, Gupta R (2008) A patient-mounted, telerobotic tool for CT-guided percutaneous interventions. ASME J Med Device 2(1):011007-1 to 011007-10

24.

Wampler CW (1986) Manipulator inverse kinematic solutions based on vector formulations and damped least-squares methods. IEEE Trans Syst Man Cybernet 16(1):93–101CrossRef

25.

Wolf I, Vetter M, Wegner I, Bttger T, Nolden M, Schbinger M, Hastenteufel M, Kunert T, Meinzer HP (2005) The medical imaging interaction toolkit. Med Image Anal 9(6):594–604CrossRefPubMed

Titel: Automatic planning of needle placement for robot-assisted percutaneous procedures
verfasst von: Esia Belbachir
Ehsan Golkar
Bernard Bayle
Caroline Essert
Publikationsdatum: 18.04.2018
Verlag: Springer International Publishing
Erschienen in: International Journal of Computer Assisted Radiology and Surgery / Ausgabe 9/2018
Print ISSN: 1861-6410
Elektronische ISSN: 1861-6429
DOI: https://doi.org/10.1007/s11548-018-1754-2

Surgical soundtracks: automatic acoustic augmentation of surgical procedures

Original Article

Development of an efficient algorithm for the detection of macular edema from optical coherence tomography images

Original Article

Laparoscopic training using a quantitative assessment and instructional system

Original Article

Correction to: Ultrasound thermal monitoring with an external ultrasound source for customized bipolar RF ablation shapes

Correction

Peripheral bronchial identification on chest CT using unsupervised machine learning

Original Article

Guest editorial for the IJCARS special issue on MICCAI 2017

Guest Editorial

Neu im Fachgebiet Radiologie

Röntgen-Thorax oder LDCT fürs Lungenscreening nach HNSCC?

06.04.2025
Kopf-Hals-Tumoren
Nachrichten

Personen, die an einem Plattenepithelkarzinom im Kopf-Hals-Bereich erkrankt sind, haben ein erhöhtes Risiko für Metastasen oder zweite Primärmalignome der Lunge. Eine Studie hat untersucht, wie die radiologische Überwachung aussehen sollte.

Statine: Was der G-BA-Beschluss für Praxen bedeutet

06.04.2025
Praxis und Beruf
Nachrichten

Nach dem G-BA-Beschluss zur erweiterten Verordnungsfähigkeit von Lipidsenkern rechnet die DEGAM mit 200 bis 300 neuen Dauerpatienten pro Praxis. Im Interview erläutert Präsidiumsmitglied Erika Baum, wie Hausärztinnen und Hausärzte am besten vorgehen.

Brustdichte nicht mit Multivitaminpräparat-Einnahme assoziiert

04.04.2025
Mammografie
Nachrichten

Der regelmäßige Gebrauch von Nahrungsergänzungsmitteln scheint nicht die mammografische Brustdichte zu erhöhen. In einer US-amerikanischen Studie jedenfalls ließ sich ein derartiger Zusammenhang nicht bestätigen.

Erhöhte Suizidrate unter US-Ärztinnen

04.04.2025
Suizidalität
Nachrichten

Während der Arztberuf Männer eher vor Suizid schützt, erhöht er das Risiko bei Frauen – zumindest in den USA: Die Suizidinzidenz unter Ärztinnen ist um die Hälfte höher als unter Frauen mit anderen Berufen. Männliche Ärzte töten sich dennoch wesentlich häufiger selbst als weibliche.

Update Radiologie

Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert.

Newsletter bestellen

Springer Medizin

Automatic planning of needle placement for robot-assisted percutaneous procedures