The impact of multichannel microelectrode recording (MER) in deep brain stimulation of the basal ganglia

The impact of multichannel microelectrode recording (MER) in deep brain stimulation of the basal ganglia

Deep brain stimulation (DBS) of the basal ganglia (Ncl. subthalamicus, Ncl. ventralis intermedius thalami, globus pallidus internus) has become an evidence-based and well-established treatment option in otherwise refractory movement disorders. The Ncl. subthalamicus (STN) is the target of choice in...

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Bibliographic Details
Published in:Acta neurochirurgica. Supplement Vol. 117; p. 27
Main Authors: Kinfe, Thomas M, Vesper, Jan
Format: Journal Article
Language:English
Published: Austria 2013
Subjects:
Anesthesia
Basal Ganglia - cytology
Basal Ganglia - drug effects
Basal Ganglia - physiology
Deep Brain Stimulation - instrumentation
Deep Brain Stimulation - methods
Humans
Microelectrodes
Parkinson Disease - therapy
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Summary:Deep brain stimulation (DBS) of the basal ganglia (Ncl. subthalamicus, Ncl. ventralis intermedius thalami, globus pallidus internus) has become an evidence-based and well-established treatment option in otherwise refractory movement disorders. The Ncl. subthalamicus (STN) is the target of choice in Parkinson's disease.However, a considerable discussion is currently ongoing with regard to the necessity for micro-electrode recording (MER) in DBS surgery.The present review provides an overview on deep brain stimulation and (MER) of the STN in patients with Parkinson's disease. Detailed description is given concerning the multichannel MER systems nowadays available for DBS of the basal ganglia, especially of the STN, as a useful tool for target refinement. Furthermore, an overview is given of the historical aspects, spatial mapping of the STN by MER, and its impact for accuracy and precision in current functional stereotactic neurosurgery.The pros concerning target refinement by MER means on the one hand, and cons including increased bleeding risk, increased operation time, local or general anesthesia, and single versus multichannel microelectrode recording are discussed in detail. Finally, the authors favor the use of MER with intraoperative testing combined with imaging to achieve a more precise electrode placement, aiming to ameliorate clinical outcome in therapy-resistant movement disorders.
ISSN:0065-1419
DOI:10.1007/978-3-7091-1482-7_5