透视下仰卧位经皮肾镜取石术中3D打印肾集合系统模型的非乳头入路评估：一项初步研究

Evaluation of non-papillary access on the 3D-printed renal collecting system model in fluoroscopic supine percutaneous nephrolithotomy: a pilot study.

作者信息

Bicaklioglu Fatih, Dalgic Gurkan, Ezer Mehmet, Sarica Kemal

机构信息

Department of Urology, Kartal Dr. Lütfi Kirdar City Hospital, Istanbul, Turkey.

Department of Urology, Sehit Prof. Dr. Ilhan Varank Sancaktepe Training and Research Hospital, Istanbul, Turkey.

出版信息

BMC Urol. 2025 Jul 29;25(1):184. doi: 10.1186/s12894-025-01856-x.

DOI:10.1186/s12894-025-01856-x

PMID:40731007

Abstract

OBJECTIVE

Fluoroscopic access techniques may not reliably differentiate between papillary and non-papillary renal access during percutaneous nephrolithotomy (PNL), potentially leading to misinterpretations that could increase complication risks. This pilot study aimed to evaluate whether a novel radiopaque 3D-printed collecting system model could be used to investigate the feasibility of identifying non-papillary accesses using different biplanar fluoroscopic techniques in the supine PNL setting.

MATERIALS AND METHODS

This experimental study was conducted in February 2023 using a 3D-printed Dentagum resin model of the renal collecting system fixed in a supine position. Five intentionally non-papillary accesses (two lower calyces, three middle calyces) that appeared papillary at a 0° fluoroscopic angle were created. Four biplanar fluoroscopic access techniques (0-30° cephalad, 0-30° caudal, 0-20° lateral, and 0-90°) were then employed to detect whether these accesses could be identified as non-papillary.

RESULTS

Among the five non-papillary accesses, 0-30° cephalad detected one (20%), 0-30° caudal detected two (40%), and 0-90° detected two (40%), while 0-20° lateral detected none. Both non-papillary accesses in the lower calyx were correctly identified using 0-90°, with one additionally detected by 0-30° cephalad and the other by 0-30° caudal. Of the three non-papillary middle calyx accesses, only one was detected (via 0-30° caudal), whereas the other two were missed by all tested angles. Additional angles (e.g., 60° lateral-30° cephalad) further increased non-papillary detection rates.

CONCLUSIONS

This pilot study demonstrates that non-papillary accesses may appear papillary under standard biplanar fluoroscopic techniques, suggesting a risk of misinterpretation and underscoring the potential benefit of incorporating additional imaging angles to improve detection accuracy.

摘要

目的

在经皮肾镜取石术（PNL）期间，透视引导进入技术可能无法可靠地区分乳头型和非乳头型肾穿刺通道，这可能导致误解，进而增加并发症风险。这项初步研究旨在评估一种新型不透射线的3D打印集合系统模型是否可用于研究在仰卧位PNL环境中使用不同双平面透视技术识别非乳头型穿刺通道的可行性。

材料与方法

本实验研究于2023年2月进行，使用一个固定在仰卧位的肾集合系统的3D打印Dentagum树脂模型。创建了五个在0°透视角度下看似乳头型的故意非乳头型穿刺通道（两个下盏，三个中盏）。然后采用四种双平面透视进入技术（头侧0-30°、尾侧0-30°、外侧0-20°和0-90°）来检测这些穿刺通道是否可被识别为非乳头型。

结果

在五个非乳头型穿刺通道中，头侧0-30°检测出1个（20%），尾侧0-30°检测出2个（40%），0-90°检测出2个（40%），而外侧0-20°未检测出任何通道。下盏的两个非乳头型穿刺通道均使用0-90°正确识别，其中一个还被头侧0-30°检测出，另一个被尾侧0-30°检测出。在三个非乳头型中盏穿刺通道中，仅检测出1个（通过尾侧0-30°），而其他两个在所有测试角度均未被检测出。额外的角度（如外侧60°-头侧30°）进一步提高了非乳头型的检测率。

结论

这项初步研究表明，在标准双平面透视技术下，非乳头型穿刺通道可能看似乳头型，提示存在误解风险，并强调了纳入额外成像角度以提高检测准确性的潜在益处。

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透视下仰卧位经皮肾镜取石术中3D打印肾集合系统模型的非乳头入路评估：一项初步研究

Evaluation of non-papillary access on the 3D-printed renal collecting system model in fluoroscopic supine percutaneous nephrolithotomy: a pilot study.

作者信息

机构信息

出版信息

OBJECTIVE

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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