Development and Initial Evaluation of a Cost-Effective Force Sensor for Ureteroscopic Application.

IF 2.9 2区医学 Q1 UROLOGY & NEPHROLOGY

Journal of endourology Pub Date : 2024-10-01 Epub Date: 2024-07-08 DOI:10.1089/end.2024.0315

Bruce M Gao, Jacob C Tsai, Andrei D Cumpanas, Jaime Altamirano-Villarroel, Seyedamirvala Saadat, Victor Pham, Evan Grohs, Yi Xi Wu, Zachary E Tano, Sohrab N Ali, Pengbo Jiang, Roshan M Patel, Jaime Landman, Ralph V Clayman

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引用次数: 0

Abstract

Purpose: Retrograde intrarenal surgery is the gold-standard treatment for most kidney stones. During ureteroscopy, ureteral access sheath insertion at forces greater than 8.0 Newtons (N) risks high-grade ureteral injury. To monitor force, our institution utilizes a unique, Bluetooth-equipped device (i.e., the University of California-Irvine Force Sensor). Given the unique nature of the force sensor, we sought to develop an inexpensive and accessible force sensor based on Boyle's law and the specific amount of force required to compress an occluded 1.0 mL syringe. Materials and Methods: We evaluated three brands of 1.0 mL syringes. After setting the plunger at 1.0 mL, the syringe was occluded, and the syringe plunger was compressed. The syringe volume was recorded when the applied force on the plunger reached 4.0 N, 6.0 N, and 8.0 N. Multiple trials were performed to assess reliability and reproducibility. A method for applying this clinically was also developed. Results: The precise force thresholds identified for a 1.0 mL Luer-Lok™ Syringe (Becton Dickinson, Franklin Lakes, NJ) were 0.30 mL for 4.00 N, 0.20 mL for 6.00 N, and 0.15 mL for 8.00 N. The 1.0 mL Tuberculin Syringe and 1.0 mL Luer Slip Syringe were less precise, but compression from 1.0 to 0.40 mL, 0.25 mL, and 0.20 mL corresponded to force sensor readings that did not exceed 4.00 N, 6.00 N, and 8.00 N, respectively. Conclusions: Based on volume changes, 4.00 N, 6.00 N, and 8.00 N of force can be reliably and reproducibly achieved using an occluded 1.0 mL syringe.

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开发和初步评估输尿管镜应用的高性价比力传感器

目的：逆行肾内手术是治疗大多数肾结石的金标准。在输尿管镜检查过程中，以大于 8.0 牛顿的力量插入输尿管入路鞘有可能造成输尿管严重损伤。为了监测力，我们机构使用了一种独特的蓝牙设备（即加州大学欧文分校力传感器）。鉴于力传感器的独特性，我们试图根据波义耳定律和压缩闭塞的 1.0 mL 注射器所需的特定力来开发一种廉价且易于使用的力传感器：我们评估了三种品牌的 1.0 mL 注射器。将柱塞设定为 1.0 mL 后，闭塞注射器并压缩注射器柱塞。当柱塞上的作用力分别达到 4.0 牛、6.0 牛和 8.0 牛时，记录注射器的容积。此外，还开发了一种将其应用于临床的方法：结果：1.0 mL Luer-Lok™ 注射器（Becton Dickinson，Franklin Lakes，NJ）的精确力阈值为 0.30 mL（4.00 N）、0.20 mL（6.00 N）和 0.15 mL（8.00 N）。0 mL Luer Slip 注射器的精确度较低，但从 1.0 mL 压缩到 0.40 mL、0.25 mL 和 0.20 mL 时，力传感器读数分别不超过 4.00 N、6.00 N 和 8.00 N：根据容积变化，使用闭塞的 1.0 mL 注射器可以可靠、可重复地获得 4.00 N、6.00 N 和 8.00 N 的力。

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

Journal of endourology 医学-泌尿学与肾脏学

CiteScore

5.50

自引率

14.80%

发文量

254

审稿时长

1 months

期刊介绍： Journal of Endourology, JE Case Reports, and Videourology are the leading peer-reviewed journal, case reports publication, and innovative videojournal companion covering all aspects of minimally invasive urology research, applications, and clinical outcomes. The leading journal of minimally invasive urology for over 30 years, Journal of Endourology is the essential publication for practicing surgeons who want to keep up with the latest surgical technologies in endoscopic, laparoscopic, robotic, and image-guided procedures as they apply to benign and malignant diseases of the genitourinary tract. This flagship journal includes the companion videojournal Videourology™ with every subscription. While Journal of Endourology remains focused on publishing rigorously peer reviewed articles, Videourology accepts original videos containing material that has not been reported elsewhere, except in the form of an abstract or a conference presentation. Journal of Endourology coverage includes: The latest laparoscopic, robotic, endoscopic, and image-guided techniques for treating both benign and malignant conditions Pioneering research articles Controversial cases in endourology Techniques in endourology with accompanying videos Reviews and epochs in endourology Endourology survey section of endourology relevant manuscripts published in other journals.