Involvement of the human pedunculopontine nucleus region in voluntary movements
Citation Manager Formats
Make Comment
See Comments
![Loading Loading](https://n.neurology.org/sites/all/modules/contrib/panels_ajax_tab/images/loading.gif)
This article requires a subscription to view the full text. If you have a subscription you may use the login form below to view the article. Access to this article can also be purchased.
Abstract
Objective: The pedunculopontine nucleus region (PPNR) is being investigated as a target for deep brain stimulation (DBS) in Parkinson disease (PD), particularly for gait and postural impairment. A greater understanding of how PPNR activities and oscillations are modulated with voluntary movements is crucial to the development of neuromodulation strategies.
Methods: We studied 7 patients with PD who underwent DBS electrode implantations in the PPNR. PPNR local field potential and EEG were recorded while patients performed self-paced wrist and ankle movements.
Results: Back-averaging of the PPNR recording showed movement-related potentials before electromyography onset. Frequency analysis showed 2 discrete movement-related frequency bands in the theta (6- to 10-Hz) and beta (14- to 30-Hz) ranges. The PPNR theta band showed greater event-related desynchronization with movements in the ON than in the OFF medication state and was coupled with the sensorimotor cortices in the ON state only. Beta event-related desynchronization was observed in the PPNR during the premovement and movement execution phases in the OFF state. In contrast, premovement PPNR beta event-related synchronization occurred in the ON state. Moreover, beta band coherence between the PPNR and the midline prefrontal region was observed during movement preparation in the ON but not the OFF state.
Conclusions: Activities of PPNR change during movement preparation and execution in patients with PD. Dopaminergic medications modulate PPNR activities and promote the interactions between the cortex and PPNR. Beta oscillations may have different functions in the basal ganglia and PPNR, and may be prokinetic rather than antikinetic in the PPNR.
Footnotes
-
Editorial, page 944
Supplemental data at www.neurology.org
e-Pub ahead of print on August 11, 2010, at www.neurology.org.
Study funding: Supported by the Canadian Institutes of Health Research (CIHR) MOP15128. Eric W. Tsang is supported by a CIHR Canada Graduate Scholarship Doctoral Award, Robert Chen is supported by a CIHR–Industry Partnered Investigator Award, and Andres M. Lozano is supported by the Canada Research Chair in Neurosciences.
Disclosure: Author disclosures are provided at the end of the article.
Received November 6, 2009. Accepted in final form March 9, 2010.
AAN Members
We have changed the login procedure to improve access between AAN.com and the Neurology journals. If you are experiencing issues, please log out of AAN.com and clear history and cookies. (For instructions by browser, please click the instruction pages below). After clearing, choose preferred Journal and select login for AAN Members. You will be redirected to a login page where you can log in with your AAN ID number and password. When you are returned to the Journal, your name should appear at the top right of the page.
AAN Non-Member Subscribers
Purchase access
For assistance, please contact:
AAN Members (800) 879-1960 or (612) 928-6000 (International)
Non-AAN Member subscribers (800) 638-3030 or (301) 223-2300 option 3, select 1 (international)
Sign Up
Information on how to subscribe to Neurology and Neurology: Clinical Practice can be found here
Purchase
Individual access to articles is available through the Add to Cart option on the article page. Access for 1 day (from the computer you are currently using) is US$ 39.00. Pay-per-view content is for the use of the payee only, and content may not be further distributed by print or electronic means. The payee may view, download, and/or print the article for his/her personal, scholarly, research, and educational use. Distributing copies (electronic or otherwise) of the article is not allowed.
Letters: Rapid online correspondence
REQUIREMENTS
You must ensure that your Disclosures have been updated within the previous six months. Please go to our Submission Site to add or update your Disclosure information.
Your co-authors must send a completed Publishing Agreement Form to Neurology Staff (not necessary for the lead/corresponding author as the form below will suffice) before you upload your comment.
If you are responding to a comment that was written about an article you originally authored:
You (and co-authors) do not need to fill out forms or check disclosures as author forms are still valid
and apply to letter.
Submission specifications:
- Submissions must be < 200 words with < 5 references. Reference 1 must be the article on which you are commenting.
- Submissions should not have more than 5 authors. (Exception: original author replies can include all original authors of the article)
- Submit only on articles published within 6 months of issue date.
- Do not be redundant. Read any comments already posted on the article prior to submission.
- Submitted comments are subject to editing and editor review prior to posting.
You May Also be Interested in
Long-term Safety and Efficacy of Avalglucosidase Alfa in Patients With Late-Onset Pompe Disease
Dr. Marianne de Visser and Dr. Maudy Theunissen
► Watch
Related Articles
Topics Discussed
Alert Me
Recommended articles
-
Articles
Subthalamic deep brain stimulation at individualized frequencies for Parkinson diseaseE.W. Tsang, C. Hamani, E. Moro et al.Neurology, May 16, 2012 -
Editorials
What does the pedunculopontine nucleus do?Joseph Classen, Alfons Schnitzler et al.Neurology, August 11, 2010 -
Articles
Involvement of the human subthalamic nucleus in movement preparationG. Paradiso, J. A. Saint-Cyr, A. M. Lozano et al.Neurology, December 08, 2003 -
Clinical Implications of Neuroscience Research
Pedunculopontine nucleusFunctional organization and clinical implicationsEduardo E. Benarroch et al.Neurology, March 18, 2013