Hybrid Bladder Phantom to Validate Next-Generation Optical Wearables for Neurogenic Bladder Volume Monitoring.

IF 1.8 3区 医学 Q3 UROLOGY & NEPHROLOGY
International Neurourology Journal Pub Date : 2023-11-01 Epub Date: 2023-11-30 DOI:10.5213/inj.2346248.124
Kelsey J Tu, Jesse H Lam, Byeong-Il Kang, Aram Kim, Sehwan Kim
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引用次数: 1

Abstract

Purpose: The development of optics-based wearables for bladder volume monitoring has emerged as a significant topic in recent years. Given the innovative nature of this technology, there is currently no bladder phantom available to effectively validate these devices against more established gold standards, such as ultrasound. In this study, we showcase and demonstrate the performance of our hybrid bladder phantom by using an optical device and making comparisons with ultrasound.

Methods: A series of validation tests, including phantom repeatability, ultrasound scanning, and an optical test, were performed. A near-infrared optical device was utilized to conduct diffuse optical spectroscopy (DOS). Machine learning models were employed to construct predictive models of volume using optical signals.

Results: The size and position of an embedded balloon, serving as an analog for the bladder, were shown to be consistent when infused with 100 mL to 350 mL of water during repeatability testing. For DOS data, we present 7 types of machine learningbased models based on different optical signals. The 2 best-performing models demonstrated an average absolute volume error ranging from 12.7 mL to 19.0 mL.

Conclusion: In this study, we introduced a hybrid bladder phantom designed for the validation of near-infrared spectroscopy-based bladder monitoring devices in comparison with ultrasound techniques. By offering a reproducible and robust validation tool, we aim to support the advancement of next-generation optical wearables for bladder volume monitoring.

混合膀胱幻影验证用于神经源性膀胱容量监测的下一代光学可穿戴设备。
目的:近年来,开发基于光学的可穿戴膀胱容量监测设备已成为一个重要的话题。考虑到这项技术的创新性,目前还没有膀胱模型可以有效地验证这些设备是否符合更成熟的黄金标准,比如超声波。在这项研究中,我们通过使用光学装置并与超声波进行比较,展示和展示了我们的混合膀胱幻影的性能。方法:进行一系列验证试验,包括幻像重复性、超声扫描和光学测试。利用近红外光学器件进行漫射光谱学分析。采用机器学习模型构建基于光信号的体积预测模型。结果:在重复性测试中,当注入100 mL至350 mL的水时,作为膀胱模拟物的嵌入气球的大小和位置显示是一致的。对于DOS数据,我们提出了7种基于不同光信号的机器学习模型。两种表现最好的模型显示平均绝对体积误差在12.7 mL到19.0 mL之间。结论:在本研究中,我们介绍了一种混合膀胱幻影,用于验证基于近红外光谱的膀胱监测装置与超声技术的比较。通过提供可重复且强大的验证工具,我们的目标是支持用于膀胱容量监测的下一代光学可穿戴设备的发展。
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来源期刊
International Neurourology Journal
International Neurourology Journal UROLOGY & NEPHROLOGY-
CiteScore
4.40
自引率
21.70%
发文量
41
审稿时长
4 weeks
期刊介绍: The International Neurourology Journal (Int Neurourol J, INJ) is a quarterly international journal that publishes high-quality research papers that provide the most significant and promising achievements in the fields of clinical neurourology and fundamental science. Specifically, fundamental science includes the most influential research papers from all fields of science and technology, revolutionizing what physicians and researchers practicing the art of neurourology worldwide know. Thus, we welcome valuable basic research articles to introduce cutting-edge translational research of fundamental sciences to clinical neurourology. In the editorials, urologists will present their perspectives on these articles. The original mission statement of the INJ was published on October 12, 1997. INJ provides authors a fast review of their work and makes a decision in an average of three to four weeks of receiving submissions. If accepted, articles are posted online in fully citable form. Supplementary issues will be published interim to quarterlies, as necessary, to fully allow berth to accept and publish relevant articles.
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