The Role of Microelectrode Recording and Stereotactic Computed Tomography in Verifying Lead Placement During Awake MRI-Guided Subthalamic Nucleus Deep Brain Stimulation for Parkinson’s Disease-Reference-Cited by-同舟云学术

The Role of Microelectrode Recording and Stereotactic Computed Tomography in Verifying Lead Placement During Awake MRI-Guided Subthalamic Nucleus Deep Brain Stimulation for Parkinson’s Disease

Published:2022-05-24 Issue:4 Volume:12 Page:1269-1278
ISSN:1877-7171
Container-title:Journal of Parkinson's Disease
language:
Short-container-title:JPD

Author:

Vinke R. Saman¹,Selvaraj Ashok K.¹,Geerlings Martin¹,Georgiev Dejan²³,Sadikov Aleksander³,Kubben Pieter L.⁴,Doorduin Jonne⁵,Praamstra Peter⁵,Bloem Bastiaan R.⁵,Bartels Ronald H.M.A.¹,Esselink Rianne A.J.⁵

Affiliation:

1. Donders Institute for Brain, Cognition and Behaviour, Department of Neurosurgery, Radboud University Medical Center, Nijmegen, The Netherlands

2. Department of Neurology, University Medical Center Ljubljana, Ljubljana, Slovenia

3. Faculty of Computer and Information Science, University of Ljubljana, Ljubljana, Slovenia

4. Department of Neurosurgery, Maastricht University Medical Center, Maastricht, The Netherlands

5. Donders Institute for Brain, Cognition and Behaviour, Department of Neurology, Radboud University Medical Center, Nijmegen, The Netherlands

Abstract

Background: Bilateral deep brain stimulation of the subthalamic nucleus (STN-DBS) has become a cornerstone in the advanced treatment of Parkinson’s disease (PD). Despite its well-established clinical benefit, there is a significant variation in the way surgery is performed. Most centers operate with the patient awake to allow for microelectrode recording (MER) and intraoperative clinical testing. However, technical advances in MR imaging and MRI-guided surgery raise the question whether MER and intraoperative clinical testing still have added value in DBS-surgery. Objective: To evaluate the added value of MER and intraoperative clinical testing to determine final lead position in awake MRI-guided and stereotactic CT-verified STN-DBS surgery for PD. Methods: 29 consecutive patients were analyzed retrospectively. Patients underwent awake bilateral STN-DBS with MER and intraoperative clinical testing. The role of MER and clinical testing in determining final lead position was evaluated. Furthermore, interobserver variability in determining the MRI-defined STN along the planned trajectory was investigated. Clinical improvement was evaluated at 12 months follow-up and adverse events were recorded. Results: 98% of final leads were placed in the central MER-track with an accuracy of 0.88±0.45 mm. Interobserver variability of the MRI-defined STN was 0.84±0.09. Compared to baseline, mean improvement in MDS-UPDRS-III, PDQ-39 and LEDD were 26.7±16.0 points (54%) (p < 0.001), 9.0±20.0 points (19%) (p = 0.025), and 794±434 mg/day (59%) (p < 0.001) respectively. There were 19 adverse events in 11 patients, one of which (lead malposition requiring immediate postoperative revision) was a serious adverse event. Conclusion: MER and intraoperative clinical testing had no additional value in determining final lead position. These results changed our daily clinical practice to an asleep MRI-guided and stereotactic CT-verified approach.

Publisher

IOS Press

Subject

Cellular and Molecular Neuroscience,Neurology (clinical)

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