ABSTRACT
Introduction and Objectives:
We aim to present the use of 3D digital and physical renal model (11. Adams F, Qiu T, Mark A, Fritz B, Kramer L, Schlager D, et al. Soft 3D-Printed Phantom of the Human Kidney with Collecting System. Ann Biomed Eng. 2017;45:963-72.–55. Gadzhiev N, Brovkin S, Grigoryev V, Tagirov N, Korol V, Petrov S. Sculpturing in urology, or how to make percutaneous nephrolithotomy easier. J Endourol. 2015;29:512-7.) to guide the percutaneous access during percutaneous nephrolithotripsy (PNL).
Materials and Methods:
We present the clinical case of a 30 years old man with left renal stone (25x15 mm). A virtual 3D reconstruction of the anatomical model including the stone, the renal parenchyma, the urinary collecting system (UCS) and the skeletal landmarks (lumbar spine and ribs) was elaborated. Finally, a physical 3D model was created with a 3D printer including the renal parenchyma, UCS and the stone. The surgeon evaluated the 3D virtual reconstruction and manipulated the printed model before surgery to improve the anatomical knowledge and to facilitate the percutaneous access. In prone position, combining ultrasound and fluoroscopy implemented by the preoperative anatomical planning based on the 3D virtual and printed model, an easy and safe access of the inferior calyx was achieved. Then, the patient underwent PNL using a 30 Fr Amplatz sheet with semi-rigid nephroscope and ultrasound energy to achieve a complete lithotripsy of the pelvic stone.
Results:
The procedure was safely completed with 1 single percutaneous puncture (time of puncture 2 minutes). Overall surgical time was 90 min. No intra and postoperative complications were reported. The CT scan performed before discharge confirmed a complete stone free state.
Conclusion:
The 3D-guided approach to PNL facilitates the preoperative planning of the puncture with better knowledge of the renal anatomy and may be helpful to reduce operative time and improve the learning curve.
ARTICLE INFO
Available at: http://www.intbrazjurol.com.br/video-section/20180799Bianchi_et_al
Int Braz J Urol. 2019; 45 (Video #25): 1281-2
REFERENCES
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1Adams F, Qiu T, Mark A, Fritz B, Kramer L, Schlager D, et al. Soft 3D-Printed Phantom of the Human Kidney with Collecting System. Ann Biomed Eng. 2017;45:963-72.
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2Akand M, Civcik L, Buyukaslan A, Altintas E, Kocer E, Koplay M, et al. Feasibility of a novel technique using 3-dimensional modeling and augmented reality for access during percutaneous nephrolithotomy in two different exvivo models. Int Urol Nephrol. 2019;51:17-25.
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3Ghazi A, Campbell T, Melnyk R, Feng C, Andrusco A, Stone J, et al. Validation of a Full-Immersion Simulation Platform for Percutaneous Nephrolithotomy Using Three-Dimensional Printing Technology. J Endourol. 2017;31:1314-20.
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4Atalay HA, Ülker V, Alkan Í, Canat HL, Özkuvanci Ü, Altunrende F. Impact of Three-Dimensional Printed Pelvicaliceal System Models on Residents’ Understanding of Pelvicaliceal System Anatomy Before Percutaneous Nephrolithotripsy Surgery: A Pilot Study. J Endourol. 2016;30:1132-7.
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5Gadzhiev N, Brovkin S, Grigoryev V, Tagirov N, Korol V, Petrov S. Sculpturing in urology, or how to make percutaneous nephrolithotomy easier. J Endourol. 2015;29:512-7.
Publication Dates
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Publication in this collection
20 Dec 2019 -
Date of issue
Nov-Dec 2019
History
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Received
05 Dec 2018 -
Accepted
14 Apr 2019 -
Published
20 May 2019