Ambulatory urodynamic monitoring: state of the art and future directions

膀胱测量 回廊的 医学 背景(考古学) 尿动力学试验 导管 下尿路症状 尿失禁 重症监护医学 外科 膀胱 内科学 前列腺 古生物学 癌症 生物
作者
Benjamin Abelson,Steve Majerus,Daniel Sun,Bradley C. Gill,Eboo Versi,Margot S. Damaser
出处
期刊:Nature Reviews Urology [Nature Portfolio]
卷期号:16 (5): 291-301 被引量:55
标识
DOI:10.1038/s41585-019-0175-5
摘要

Urodynamic studies are a key component of the clinical evaluation of lower urinary tract dysfunction and include filling cystometry, pressure-flow studies, uroflowmetry, urethral function tests and electromyography. However, pitfalls of traditional urodynamics include physical and emotional discomfort, artificial test conditions with catheters and rapid retrograde filling of the bladder, which result in variable diagnostic accuracy. Ambulatory urodynamic monitoring (AUM) uses physiological anterograde filling and, therefore, offers a longer and more physiologically relevant evaluation. However, AUM methods rely on traditional catheters and pressure transducers and do not measure volume continuously, which is required to provide context for pressure changes. Novel telemetric AUM (TAUM) methods that use wireless, catheter-free, battery-powered devices to monitor bladder pressure and volume while patients carry out their daily activities are currently being investigated. TAUM devices under current development are innovating in the areas of remote monitoring, rechargeable energy sources, device deployment and retrieval and materials engineering to provide increased diagnostic accuracy and improved comfort for patients with incontinence or voiding dysfunction. These devices hold promise for improving the diagnosis and management of patients with lower urinary tract disorders. Ambulatory urodynamic monitoring (AUM) offers numerous advantages over office-based urodynamics for evaluating urological conditions. This Review describes current trends and limitations of traditional urodynamics and advantages of AUM and highlights emerging telemetric AUM devices for bladder pressure and volume monitoring.
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