Technology of deep brain stimulation: current status and future directions

被引:0
作者
Joachim K. Krauss
Nir Lipsman
Tipu Aziz
Alexandre Boutet
Peter Brown
Jin Woo Chang
Benjamin Davidson
Warren M. Grill
Marwan I. Hariz
Andreas Horn
Michael Schulder
Antonios Mammis
Peter A. Tass
Jens Volkmann
Andres M. Lozano
机构
[1] Hannover Medical School,Department of Neurosurgery
[2] Sunnybrook Health Sciences Centre,Department of Neurosurgery
[3] University of Oxford,Nuffield Department of Surgical Sciences
[4] University of Toronto,Joint Department of Medical Imaging
[5] University of Oxford,Medical Research Council Brain Network Dynamics Unit
[6] Yonsei University College of Medicine,Department of Neurosurgery
[7] Duke University,Department of Biomedical Engineering
[8] University of Umea,Department of Clinical Neuroscience
[9] Charité Medicine University of Berlin,Department of Neurology, Movement Disorders and Neuromodulation Section
[10] Zucker School of Medicine at Hofstra/Northwell,Department of Neurosurgery
[11] Rutgers New Jersey Medical School,Department of Neurosurgery
[12] Stanford University,Department of Neurosurgery
[13] University Hospital of Würzburg,Department of Neurology
[14] University of Toronto,Division of Neurosurgery, Department of Surgery
来源
Nature Reviews Neurology | 2021年 / 17卷
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摘要
Deep brain stimulation (DBS) is a neurosurgical procedure that allows targeted circuit-based neuromodulation. DBS is a standard of care in Parkinson disease, essential tremor and dystonia, and is also under active investigation for other conditions linked to pathological circuitry, including major depressive disorder and Alzheimer disease. Modern DBS systems, borrowed from the cardiac field, consist of an intracranial electrode, an extension wire and a pulse generator, and have evolved slowly over the past two decades. Advances in engineering and imaging along with an improved understanding of brain disorders are poised to reshape how DBS is viewed and delivered to patients. Breakthroughs in electrode and battery designs, stimulation paradigms, closed-loop and on-demand stimulation, and sensing technologies are expected to enhance the efficacy and tolerability of DBS. In this Review, we provide a comprehensive overview of the technical development of DBS, from its origins to its future. Understanding the evolution of DBS technology helps put the currently available systems in perspective and allows us to predict the next major technological advances and hurdles in the field.
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页码:75 / 87
页数:12
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