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Feasibility of a novel technique using 3-dimensional modeling and augmented reality for access during percutaneous nephrolithotomy in two different ex-vivo models.在两种不同的体外模型中,使用三维建模和增强现实技术辅助经皮肾镜取石术穿刺入路的可行性研究
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2
Validation of a Full-Immersion Simulation Platform for Percutaneous Nephrolithotomy Using Three-Dimensional Printing Technology.使用三维打印技术对经皮肾镜取石术全浸没模拟平台的验证
J Endourol. 2017 Dec;31(12):1314-1320. doi: 10.1089/end.2017.0366.
3
Soft 3D-Printed Phantom of the Human Kidney with Collecting System.带有收集系统的人体肾脏软质3D打印模型
Ann Biomed Eng. 2017 Apr;45(4):963-972. doi: 10.1007/s10439-016-1757-5. Epub 2016 Nov 9.
4
Impact of Three-Dimensional Printed Pelvicaliceal System Models on Residents' Understanding of Pelvicaliceal System Anatomy Before Percutaneous Nephrolithotripsy Surgery: A Pilot Study.三维打印肾盂肾盏系统模型对经皮肾镜取石术前住院医师理解肾盂肾盏系统解剖结构的影响:一项初步研究
J Endourol. 2016 Oct;30(10):1132-1137. doi: 10.1089/end.2016.0307.
5
Sculpturing in urology, or how to make percutaneous nephrolithotomy easier.泌尿外科中的塑形,或如何使经皮肾镜取石术更简便。
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三维重建和实体肾脏模型以改善经皮肾镜取石术中的经皮穿刺。

3D Reconstruction and physical renal model to improve percutaneous punture during PNL.

机构信息

Department of Urology, University of Bologna, Bologna, Italy.

Department of Experimental, Diagnostic and Specialty Medicine (DIMES), Cardio-Nephro-Thoracic Sciences Doctorate, University of Bologna, Bologna, Italy.

出版信息

Int Braz J Urol. 2019 Nov-Dec;45(6):1281-1282. doi: 10.1590/S1677-5538.IBJU.2018.0799.

DOI:10.1590/S1677-5538.IBJU.2018.0799
PMID:31408285
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6909851/
Abstract

INTRODUCTION AND OBJECTIVES

: We aim to present the use of 3D digital and physical renal model (–5) 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.

摘要

介绍和目的

我们旨在展示使用 3D 数字和物理肾脏模型(–5)在经皮肾镜碎石取石术(PNL)中引导经皮穿刺。

材料和方法

我们介绍了一名 30 岁男性左肾结石(25x15mm)的临床病例。对包括结石、肾实质、尿路收集系统(UCS)和骨骼标志(腰椎和肋骨)在内的解剖模型进行了虚拟 3D 重建。最后,使用 3D 打印机创建了包括肾实质、UCS 和结石的物理 3D 模型。外科医生评估了 3D 虚拟重建,并在手术前操作打印模型,以提高解剖学知识并促进经皮穿刺。患者取俯卧位,结合术前基于 3D 虚拟和打印模型的解剖学规划进行的超声和透视,实现了下盏的安全和容易的穿刺。然后,患者使用 30Fr Amplatz 片和半刚性肾镜以及超声能量进行 PNL,以实现骨盆结石的完全碎石。

结果

该程序安全完成,仅进行了 1 次经皮穿刺(穿刺时间 2 分钟)。总手术时间为 90 分钟。无术中及术后并发症发生。出院前进行的 CT 扫描证实结石完全清除。

结论

PNL 的 3D 引导方法有助于更好地了解肾脏解剖结构,从而更好地进行术前穿刺规划,可能有助于缩短手术时间并改善学习曲线。