骶神经调节编程算法背后的科学。

The science behind programming algorithms for sacral neuromodulation.

作者信息

Knowles Charles H, de Wachter Stefan, Engelberg Stefan, Lehur Paul, Matzel Klaus E, Zirpel Lance

机构信息

Centre for Neuroscience, Surgery and Trauma, Blizard Institute, Queen Mary University of London and Barts Health NHS Trust, London, UK.

Department of Urology, Faculty of Health Sciences, University Hospital Antwerpen, University Antwerpen, Antwerp, Belgium.

出版信息

Colorectal Dis. 2021 Mar;23(3):592-602. doi: 10.1111/codi.15390. Epub 2020 Oct 25.

DOI:10.1111/codi.15390

PMID:33010084

Abstract

AIM

Sacral neuromodulation (SNM) is a widely adopted treatment for overactive bladder, non-obstructive urinary retention and faecal incontinence. In the majority, it provides sustained clinical benefit. However, it is recognized that, even for these patients, stimulation parameters (such as amplitude, electrode configuration, frequency and pulse width) may vary at both initial device programming and at reprogramming, the latter often being required to optimize effectiveness. Although some recommendations exist for SNM programming, the scientific data to support them are understood by few clinicians.

METHODS

This is a narrative review of the literature covering some of the science behind stimulating a mixed peripheral nerve and available preclinical data in the field of SNM. It covers electrode configuration, amplitude, frequency, pulse width and cycling considerations. The review is targeted at clinicians with an interest in the field and does not seek to provide exhaustive detail on basic neuroscience.

RESULTS AND CONCLUSIONS

Knowledge of the science of neuromodulation provides some guiding principles for programming but these are broad. These principles are not refuted by preclinical data but specific parameters in clinical use are not strongly supported by animal data, even after the limitations of small and large animal models are considered. The review presents a shortlist of programming principles on a theoretical basis but acknowledges that current practice is as much derived from evolved experience as science.

摘要

目的

骶神经调节（SNM）是一种广泛应用于治疗膀胱过度活动症、非梗阻性尿潴留和大便失禁的方法。大多数情况下，它能带来持续的临床益处。然而，人们认识到，即使对于这些患者，刺激参数（如幅度、电极配置、频率和脉宽）在初始设备编程和重新编程时都可能有所不同，后者通常是为了优化疗效而需要进行的。尽管存在一些关于SNM编程的建议，但很少有临床医生了解支持这些建议的科学数据。

方法

这是一篇叙述性文献综述，涵盖了刺激混合周围神经背后的一些科学原理以及SNM领域现有的临床前数据。它涵盖了电极配置、幅度、频率、脉宽和循环方面的考虑因素。该综述针对的是对该领域感兴趣的临床医生，并不试图提供关于基础神经科学的详尽细节。

结果与结论

神经调节科学知识为编程提供了一些指导原则，但这些原则较为宽泛。这些原则并未被临床前数据所反驳，但即使考虑到大小动物模型的局限性，动物数据也并未有力支持临床使用中的具体参数。该综述在理论基础上列出了一份编程原则清单，但也承认当前的实践更多地源于不断积累的经验而非科学。

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骶神经调节编程算法背后的科学。

The science behind programming algorithms for sacral neuromodulation.

作者信息

机构信息

出版信息

AIM

METHODS

RESULTS AND CONCLUSIONS

目的

方法

结果与结论

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