新型小碎片清除系统可能改善肾结石的取出：一项体外研究。

Novel small fragment removal system may improve extraction of renal calculi: an in vitro study.

作者信息

Lazarus John, Wellman Mark, Wulfsberg Jørgen, Ceccato Tommaso, John Jeff

机构信息

Division of Urology, Groote Schuur Hospital, University of Cape Town, Cape Town, South Africa.

Faculty of Medicine and Health Sciences, Norwegian University of Science and Technology, Trondheim, Norway.

出版信息

World J Urol. 2024 Dec 6;43(1):16. doi: 10.1007/s00345-024-05377-4.

DOI:10.1007/s00345-024-05377-4

PMID:39643837

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11624219/

Abstract

OBJECTIVE

To describe a novel Small Fragment Removal System (SFRS) which is hypothesized to improve stone fragment removal during flexible ureteroscopy in patients with urolithiasis. The SFRS consists of three parts: a Syphon Ureteric Access Sheath (SUAS), a Dual Action Pump (DAP) and an Agitator. This bench assessment aims to assess the SFRS's impact on intra-renal pressure (IRP), irrigant flow rate and stone fragment removal compared to a traditional UAS.

MATERIALS AND METHODS

A validated phantom kidney and fibre optic pressure sensor was used to assess IRP. Standardized irrigation via a flexible ureterorenoscope was instilled through a traditional UAS and compared to the novel SFRS. Both were 11/13Fr in size. Measured minute volume, IRP and percentage of stone fragments removed were compared.

RESULTS

The mean IRP using a traditional UAS and SFRS was 24,3mmHg and 9,4mmHg respectively. The flow rate of the traditional UAS was 25mL/min, compared to 31mL/min with the SFRS attached. During bolus fluid administration using the traditional UAS the maximum IRP increased to 41mmHg, compared to 9,3mmHg with the SFRS attached. A mean of 42,7% (0,103 g of 0,305 g) of weighed dry stones were removed with the traditional UAS compared to 77,6% (0,233 g of 0,299 g) with the SFRS attached, p = 0,017.

CONCLUSIONS

The described Small Fragment Removal System (SFRS) is different from traditional UASs by incorporating a syphoning mechanism. In addition, it has a Dual Action Pump which both boluses and augments the aspiration of irrigant by the Syphon. It further includes a deflectable Agitator to flush out stone fragments.

摘要

目的

描述一种新型小碎片清除系统（SFRS），该系统被假定可改善尿路结石患者在软性输尿管镜检查期间的结石碎片清除情况。SFRS由三部分组成：虹吸输尿管通路鞘（SUAS）、双作用泵（DAP）和搅拌器。本实验台评估旨在评估与传统输尿管通路鞘相比，SFRS对肾内压（IRP）、冲洗液流速和结石碎片清除的影响。

材料与方法

使用经过验证的模拟肾脏和光纤压力传感器评估IRP。通过软性输尿管肾镜进行标准化冲洗，经传统输尿管通路鞘注入，并与新型SFRS进行比较。两者尺寸均为11/13Fr。比较测量的每分钟尿量、IRP和结石碎片清除百分比。

结果

使用传统输尿管通路鞘和SFRS时的平均IRP分别为24.3mmHg和9.4mmHg。传统输尿管通路鞘的流速为25mL/min，连接SFRS时为31mL/min。使用传统输尿管通路鞘进行推注液体时，最大IRP增至41mmHg，连接SFRS时为9.3mmHg。使用传统输尿管通路鞘时，平均清除了42.7%（0.305g中的0.103g）称重的干结石，连接SFRS时为77.6%（0.299g中的0.233g），p = 0.017。

结论

所描述的小碎片清除系统（SFRS）与传统输尿管通路鞘不同，它采用了虹吸机制。此外，它有一个双作用泵，既能推注又能增强虹吸对冲洗液的抽吸。它还包括一个可偏转的搅拌器以冲出结石碎片。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/05c4/11624219/b48422250253/345_2024_5377_Fig1_HTML.jpg

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新型小碎片清除系统可能改善肾结石的取出：一项体外研究。

Novel small fragment removal system may improve extraction of renal calculi: an in vitro 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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