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Journal of Neural Transmission
Published in: Journal of Neural Transmission 9/2017

Open Access 01-09-2017 | Neurology and Preclinical Neurological Studies - Review Article

Systems for deep brain stimulation: review of technical features

Authors: A. Amon, F. Alesch

Published in: Journal of Neural Transmission | Issue 9/2017

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Abstract

The use of deep brain stimulation (DBS) is an important treatment option for movement disorders and other medical conditions. Today, three major manufacturers provide implantable systems for DBS. Although the underlying principle is basically the same for all available systems, the differences in the technical features vary considerably. This article outlines aspects regarding the technical features of DBS systems. The differences between voltage and current sources are addressed and their effect on stimulation is shown. To maintain clinical benefit and minimize side effects the stimulation field has to be adapted to the requirements of the patient. Shaping of the stimulation field can be achieved by the electrode design and polarity configuration. Furthermore, the electric signal consisting of stimulation rate, stimulation amplitude and pulse width affect the stimulation field. Interleaving stimulation is an additional concept, which permits improved treatment outcomes. Therefore, the electrode design, the polarity, the electric signal, and the concept of interleaving stimulation are presented. The investigated systems can be also categorized as rechargeable and non-rechargeable, which is briefly discussed. Options for interconnecting different system components from various manufacturers are presented. The present paper summarizes the technical features and their combination possibilities, which can have a major impact on the therapeutic effect.
Footnotes
1
Abbott acquired St. Jude early 2017.
 
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Metadata
Title
Systems for deep brain stimulation: review of technical features
Authors
A. Amon
F. Alesch
Publication date
01-09-2017
Publisher
Springer Vienna
Published in
Journal of Neural Transmission / Issue 9/2017
Print ISSN: 0300-9564
Electronic ISSN: 1435-1463
DOI
https://doi.org/10.1007/s00702-017-1751-6

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