Subthalamic Nucleus Stimulation for Advanced Parkinson's Disease: How to Find a Far Medial STN

 

 Buy Article Permissions and Reprints

Abstract

In a patient with advanced Parkinson's disease, an anatomically deviant far medial subthalamic nucleus (STN) posed problems in the placement of DBS electrodes for chronic high frequency (HF) stimulation despite the use of multimodal targeting with 1) statistical atlas data, 2) T₂-weighted (T₂W) magnetic resonance imaging (MRI), 3) microelectrode recording, and 4) clinical testing with macro stimulation. Diagnostic T₂W MRI suggested that the patient's STN was in a typical location and seemed to confirm the statistical atlas-based planning. Intraoperatively, cell activity recording (MER) with five parallel electrodes could not reveal any STN typical activity profile and electrical stimulation was not able to disclose a medial or lateral displacement of the electrodes. The operation was discontinued and postoperative stereotactic CT confirmed that the correct target area had been approached during the operation. Postoperative T₂W MRI now disclosed a left STN which was 2 mm medial of the initial target and lead to a further medial target definition and finally to a successful DBS placement. In conclusion, finding a deep seated DBS target like the STN can be difficult in cases with an extremely deviant anatomy even if reiterative sophisticated multimodal planning is used. In the presented case we applied the integrated information from intraoperative MER, macrostimulation and postoperative imaging work-up and were able to complete DBS implantation successfully.

References

• 1 Guiot G, Derome P, Arfel G. et al . Electrophysiological recordings in stereotaxic thalamotomy for parkinsonism.  Prog Neurol Surg. 1973;  5 189-221
  PubMedSearch in Google Scholar
• 2 Rodriguez-Oroz M C, Rodriguez M, Guridi J, Mewes K, Chockkman V, Vitek J, DeLong M R, Obeso J A. The subthalamic nucleus in Parkinson's disease: somatotopic organization and physiological characteristics.  Brain. 2001;  124 1777-1790
  CrossrefPubMedSearch in Google Scholar
• 3 Hutchinson W D, Allan R J, Opitz H, Levy R, Dostrovsky J O, Lang A E, Lozano A M. Neurophysiological identification of the subthalamic nucleus in surgery for Parkinson's disease.  Ann Neurol. 1998;  44 622-628
  CrossrefPubMedSearch in Google Scholar
• 4 Krack P, Limousin P, Benabid A L, Pollak P. Chronic stimulation of the subthalamic nucleus improves levodopa-induced dyskinesias in Parkinson's disease.  Lancet. 1997;  350 1676
  PubMedSearch in Google Scholar
• 5 Schaltenbrand G, Wahren W. Atlas for stereotaxy of the human brain. Stuttgart: Thieme 1977
  Search in Google Scholar
• 6 Novak P, Novak V, Kangarlu A, Abduljalil A M, Chakeres D W, Robitaille P M. High resolution MRI of the brainstem at 8 T.  J Comput Assist Tomogr. 2001;  25 242-246
  CrossrefPubMedSearch in Google Scholar
• 7 Koeppen A H. The history of iron in the brain.  J Neurol Sci. 1995;  134 (Suppl) 1-9
  CrossrefPubMedSearch in Google Scholar
• 8 Smith R C, Lange R C, McCarthy S M. Chemical shift artefact: dependence on shape and orientation of the lipid water interface.  Radiology. 1991;  181 225-229
  PubMedSearch in Google Scholar
• 9 Krauss J K, Grossman R G. Principles and techniques of movement disorders surgery. In: Krauss JK, Jankovic J, Grossman RG (eds). Surgery for Parkinson's disease and movement disorders. Philadelphia: Lippincott Williams & Wilkins 2001: pp 74-109
  Search in Google Scholar
• 10 Benabid A L, Pollak P, Koudsie A, Benezzouz A, Lebas J F. Electrical inhibition of the subthalamic nucleus for treatment of parkinson's disease. In: Krauss JK, Jankovic J, Grossman RG (eds). Surgery for Parkinson's disease and movement disorders. Philadelphia: Lippincott Williams & Wilkins 2001: pp 176-187
  Search in Google Scholar
• 11 Starr P A, Vitek J L, DeLong M, Bakay R AE. Magnetic resonance imaging-based stereotactic localization of the globus pallidus and subthalamic nucleus.  Neurosurgery. 1999;  44 303-314
  PubMedSearch in Google Scholar
• 12 Starr P A, Christine C W, Theodosopoulus P V, Lindsey N, Byrd D, Mosley A, Marks W J. Implantation of deep brain stimulators into the subthalamic nucleus: technical approach and magnetic resonance imaging-verified lead locations.  J Neurosurg. 2002;  97 370-387
  CrossrefPubMedSearch in Google Scholar
• 13 Bejjani B P, Dormont D, Pidoux B, Yelnik J, Damier P, Arnulf I, Bonnet A M, Marsault C, Agid Y, Philippon J, Cornu P. Bilateral subthalamic stimulation for Parkinson's disease by using three-dimensional stereotactic magnetic resonance imaging and electrophysiological guidance.  J Neurosurg. 2000;  92 615-625
  CrossrefPubMedSearch in Google Scholar
• 14 Zonenshayn M, Rezai A R, Mogilner A Y, Beric A, Sterio D, Kelly P J. Comparison of anatomic and neurophysiological methods for subthalamic nucleus targeting.  Neurosurgery. 2000;  47 282-294
  CrossrefPubMedSearch in Google Scholar
• 15 Cuny E, Guel D, Burbaud P, Gross C, Dousset V, Rougier A. Lack of agreement between direct magnetic resonance imaging and statistical determination of a subthalamic target: the role of electrophysiological guidance.  J Neurosurg. 2002;  97 591-597
  PubMedSearch in Google Scholar

Volker A. Coenen, M. D. 

Neurochirurgische Klinik · Klinikum der RWTH Aachen

Pauwelsstraße 30

52057 Aachen

Germany

Phone: +49-241-808-8480

Fax: +49-241-808-2420

Email: vacoenen@aol.com