Flexible and navigable suction access sheaths: balancing sheath and scope size for desired flows.

IF 4.4 2区医学 Q1 UROLOGY & NEPHROLOGY

BJU International Pub Date : 2025-09-26 DOI:10.1111/bju.16865

Richard Menzies-Wilson,Jessica Williams,Thijs Ruiken,Candace Rhodes,Ben Turney

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引用次数: 0

Abstract

OBJECTIVE To study the effects of ureteroscope diameter, 'flexible and navigable suction' access sheaths (FANS) diameter, and irrigation pressure on intrarenal pressure (IRP) and irrigation fluid flow rates in ex vivo porcine kidneys; these benchtop data were compared against mathematical modelling results. MATERIALS AND METHODS Fresh ex vivo porcine kidneys and ureters were used. The tip of an 11/13- or 10/12-F ClearPetra® FANS was placed within the renal pelvis. Either a 9.5-F Boston Scientific LithoVue™, 7.5-F PUSEN PU3033, or 6.3-F HugeMed HU30M ureteroscope was inserted through the sheath. Irrigation pressures of 0, 50, 100, 150 and 200 mmHg were applied. No suction was applied. The corresponding steady state IRP and flow rate was recorded. This was replicated in three separate porcine kidneys. Benchtop data were compared to mathematical model predictions. The maximum flow rates that could be achieved with an IRP ≤30 mmHg were extrapolated. RESULTS The FANS and ureteroscope geometries affect outflow resistance. Lower outflow resistances, allow higher irrigation pressures and flow rates to be used whilst maintaining an IRP ≤30 mmHg (without suction). Whilst keeping IRP ≤30 mmHg with an 11/13-F FANS: ~700 mmHg irrigation (~120 mL/min) could be used with a 6.3-F ureteroscope; ~300 mmHg irrigation (flow rate ~65 mL/min) could be used with a 7.5-F ureteroscope; ~100 mmHg irrigation (~15 mL/min) could be used with a 9.5-F ureteroscope. CONCLUSIONS Using a FANS in the renal pelvis potentially allows for higher irrigation pressures whilst maintaining a low IRP (without the need for suction). With intraoperative monitoring of IRP, irrigation pressure could be increased to achieve flow rates up to 24 times higher than those achievable with gravity irrigation (120 vs ~5 mL/min).

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灵活和可导航的吸入口护套：平衡护套和范围尺寸所需的流量。

目的研究输尿管镜直径、柔性可导流吸入导管（FANS）直径和灌洗压力对猪离体肾内压（IRP）和灌洗液流速的影响；这些台式数据与数学模型结果进行了比较。材料与方法采用新鲜离体猪肾和输尿管。将11/13或10/12-F ClearPetra®FANS的尖端放置在肾盂内。通过鞘插入9.5 f Boston Scientific LithoVue™、7.5 f PUSEN PU3033或6.3 f HugeMed HU30M输尿管镜。灌溉压力分别为0、50、100、150和200 mmHg。未抽吸。记录相应的稳态IRP和流量。这在三个不同的猪肾脏中得到了重复。实验数据与数学模型预测进行了比较。外推IRP≤30 mmHg时所能达到的最大流速。结果输尿管镜和输尿管镜的几何形状影响输尿管流出阻力。较低的流出阻力，允许使用更高的灌溉压力和流速，同时保持IRP≤30 mmHg（无吸力）。在11/13-F风扇保持IRP≤30 mmHg的同时，6.3-F输尿管镜可使用~700 mmHg （~120 mL/min）的冲洗；7.5 f输尿管镜可采用~300 mmHg灌流（流量~65 mL/min）；~100 mmHg （~15 mL/min）可配合9.5 f输尿管镜冲洗。结论：在肾盂内使用FANS可以在保持较低IRP（不需要吸引）的同时提高冲洗压力。术中监测IRP，可以增加冲洗压力，达到比重力冲洗（120 vs ~5 mL/min）高24倍的流量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

BJU International 医学-泌尿学与肾脏学

CiteScore

9.10

自引率

4.40%

发文量

262

审稿时长

1 months

期刊介绍： BJUI is one of the most highly respected medical journals in the world, with a truly international range of published papers and appeal. Every issue gives invaluable practical information in the form of original articles, reviews, comments, surgical education articles, and translational science articles in the field of urology. BJUI employs topical sections, and is in full colour, making it easier to browse or search for something specific.