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Acta Neurochirurgica

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01-09-2013 | Review Article - Functional

A systematic review of studies on anatomical position of electrode contacts used for chronic subthalamic stimulation in Parkinson’s disease

Authors: François Caire, Danièle Ranoux, Dominique Guehl, Pierre Burbaud, Emmanuel Cuny

Published in: Acta Neurochirurgica | Issue 9/2013

Abstract

Background

The dorso-lateral part of the subthalamic nucleus (STN) is considered as the usual target of deep brain stimulation for Parkinson’s disease. Nevertheless, the exact anatomical location of the electrode contacts used for chronic stimulation is still a matter of debate. The aim of this study was to perform a systematic review of the existing literature on this issue.

Method

We searched for studies on the anatomical location of active contacts published until December 2012.

Results

We identified 13 studies, published between 2002 and 2010, including 260 patients and 466 electrodes. One hundred and sixty-four active contacts (35 %) were identified within the STN, 117 (25 %) at the interface between STN and the surrounding structures, 184 (40 %) above the STN and one within the substantia nigra. We observed great discrepancies between the different series. The contra-lateral improvement was between 37 and 78.5 % for contacts located within the STN, between 48.6 and 73 % outside the STN, between 65.3 and 66 % at the interface. The authors report no clear correlation between anatomical location and stimulation parameters.

Conclusions

Post-operative analysis of the anatomical location of active contacts is difficult, and all the methods used are debatable. The relationship between the anatomical location of active contacts and the clinical effectiveness of stimulation is unclear. It would be necessary to take into account the volume of the electrode contacts and the diffusion of the stimulation. We can nevertheless assume that the interface between dorso-lateral STN, zona incerta and Forel’s fields could be directly involved in the effects of stimulation.

Bardinet E, Bhattacharjee M, Dormont D, Pidoux B, Malandain G, Schüpbach M, Ayache N, Cornu P, Agid Y, Yelnik J (2009) A 3D histological atlas of the human basal ganglia. II. Atlas deformation strategy and evaluation in DBS for Parkinson disease. J Neurosurg 108:208–219

Blomstedt P, Fytagoridis A, Aström M, Linder J, Forsgren L, Hariz MI (2012) Unilateral caudal zona incerta deep brain stimulation for Parkinsonian tremor. Parkinsonism Relat Disord 18(10):1062–1066CrossRef

Butson CR, Cooper SE, Henderson JM, McIntyre CC (2007) Patient-specific analysis of the volume of tissue activated during deep brain stimulation. NeuroImage 34(2):661–670CrossRef

Butson CR, Cooper SE, Henderson JM, Wolgamuth B, McIntyre CC (2011) Probabilistic analysis of activation volumes generated during deep brain stimulation. NeuroImage 54(3):2096–2104CrossRef

Caire F, Derost P, Coste J, Bonny JM, Durif F, Frenoux E, Villeger A, Lemaire JJ (2006) Stimulation sous-thalamique dans la maladie de Parkinson sévère: étude de la localisation des contacts effectifs. Neurochirurgie 52(1):15–25CrossRef

Cintas P, Simonetta-Moreau M, Ory F, Brefel-Courbon C, Fabre N, Chaynes P, Sabatier J, Sol JC, Rascol O, Berry I (2003) Deep brain stimulation for Parkinson’s disease: correlation between intraoperative subthalamic nucleus neurophysiology and most effective contacts. Stereotact Funct Neurosurg 80(1–4):108–113CrossRef

Garcia L, Audin J, D'Alessandro G, Bioulac B, Hammond C (2003) Dual effect of high-frequency stimulation on subthalamic neuron activity. J Neurosci 23(25):8743–8751

Godinho F, Thobois S, Magnin M, Guenot M, Polo G, Benatru I, Xie J, Salvetti A, Garcia-Larrea L, Broussolle E, Mertens P (2006) Subthalamic nucleus stimulation in Parkinson’s disease. Anatomical and electrophysiological localization of active contacts. J Neurol 253:1347–1355CrossRef

Guehl D, Vital A, Cuny E, Spampinato U, Rougier A, Bioulac B, Burbaud P (2008) Postmortem proof of effectiveness of zona incerta stimulation in Parkinsons disease. Neurology 70(16 Pt 2):1489–1490CrossRef

10.

Guo S, Zhuang P, Hallett M, Zheng Z, Zhang Y, Li J, Li Y (2013) Subthalamic deep brain stimulation for Parkinson’s disease: correlation between locations of oscillatory activity and optimal site of stimulation. Parkinsonism Relat Disord 19(1):109–114CrossRef

11.

Hamel W, Fietzek U, Morsnowski A, Schrader B, Herzog J, Weinert D, Pfister G, Müller D, Volkmann J, Deuschl G, Mehdorn HM (2003) Deep brain stimulation of the subthalamic nucleus in Parkinson’s disease: evaluation of active electrode contacts. J Neurol Neurosurg Psychiatry 74:1036–1046CrossRef

12.

Heise CE, Mitrofanis J (2004) Evidence for glutamatergic projection from the zona incerta to the basal ganglia of rats. J Comp Neurol 468(4):482–495CrossRef

13.

Hemm S, Caire F, Coste J, Vassal F, Nuti C, Derost P, Ouchchane L, Sarry L, Durif F, Lemaire JJ (2008) Postoperative control in deep brain stimulation of the subthalamic region: the contact membership concept. IJCARS 3(1–2):69–77

14.

Henderson JM, Pell M, O’Sullivan DJ, McCusker EA, Fung VS, Hedges P, Halliday GM (2002) Postmortem analysis of bilateral subthalamic electrode implants in Parkinson’s disease. Mov Disord 17(1):133–137CrossRef

15.

Herzog J, Fietzek U, Hamel W, Morsnowski A, Steigerwald F, Schrader B, Weinert D, Pfister G, Müller D, Mehdorn HM, Deuschl G, Volkmann J (2004) Most effective stimulation site in subthalamic deep brain stimulation for Parkinson’s disease. Mov Disord 19(9):1050–1054CrossRef

16.

Johnsen EL, Sunde N, Mogensen PH, Østergaard K (2010) MRI verified STN stimulation site—gait improvement and clinical outcome. Eur J Neurol 17:746–753CrossRef

17.

Lanotte MM, Rizzone M, Bergamasco B, Faccani G, Melcarne A, Lopiano L (2002) Deep brain stimulation of the subthalamic nucleus: anatomical, neurophysiological, and outcome correlations with the effects of stimulation. J Neurol Neurosurg Psychiatry 72:53–58CrossRef

18.

Magnotta VA, Gold S, Andreasen NC, Ehrhardt JC, Yuh WT (2000) Visualization of subthalamic nuclei with cortex attenuated inversion recovery MR imaging. NeuroImage 11(4):341–346CrossRef

19.

Maks CB, Butson CR, Walter BL, Vitek JL, McIntyre CC (2009) Deep brain stimulation activation volumes and their association with neurophysiological mapping and therapeutic outcomes. J Neurol Neurosurg Psychiatry 80(6):659–666CrossRef

20.

McClelland S, Vonsattel JP, Garcia RE, Amaya MD, Winfield LM, Pullman SL, Yu Q, Fahn S, Ford B, Goodman RR (2007) Relationship of clinical efficacy of postmortem-determined anatomic subthalamic stimulation in Parkinson syndrome. Clin Neuropathol 26(6):267–275

21.

Morel A, Magnin M, Jeanmonod D (1997) Multiarchitectonic and stereotactic atlas of the human thalamus. J Comp Neurol 387(4):588–630CrossRef

22.

Paek SH, Han JH, Lee JY, Kim C, Jeon BS, Kim DG (2008) Electrode position determined by fused images of preoperative and postoperative magnetic resonance imaging and surgical outcome after subthalamic nucleus deep brain stimulation. Neurosurgery 63(5):925–936CrossRef

23.

Paek SH, Lee JY, Kim HJ, Kang D, Lim YH, Kim MR, Kim C, Jeon BS, Kim DG (2011) Electrode position and the clinical outcome after bilateral subthalamic nucleus stimulation. J Korean Med Sci 26(10):1344–1355CrossRef

24.

Plaha P, Ben-Shlomo Y, Patel NK, Gill SS (2006) Stimulation of the caudal zona incerta is superior to stimulation of the subthalamic nucleus in improving contralateral parkinsonism. Brain 129(Pt 7):1732–1747CrossRef

25.

Pollo C, Vongerhoets F, Pralong E, Ghika J, Maeder P, Meuli R, Thiran JP, Villemure JG (2007) Localization of electrodes in the subthalamic nucleus on magnetic resonance imaging. J Neurosurg 106:36–44CrossRef

26.

Saint-Cyr JA, Hoque T, Pereira LC, Dostrovsky JO, Hutchinson WD, Mikulis D, Abosch A, Sime E, Lang AE, Lozano AM (2002) Localization of clinically effective stimulating electrodes in the human subthalamic nucleus on magnetic resonance imaging. J Neurosurg 97:1152–1166CrossRef

27.

Schaltenbrand G, Wahren P (eds) (1977) Atlas for stereotaxy of the human brain. Thieme, Stuttgart

28.

Starr PA, Christine CW, Theodosopoulos PV, Lindsey N, Byrd D, Mosley A, Marks WJ Jr (2002) Implantation of deep brain stimulators into the subthalamic nucleus: technical approach and magnetic resonance imaging–verified lead locations. J Neurosurg 97:370–387CrossRef

29.

Sudhyadhom A, Haq IU, Foote KD, Okun MS, Bova FJ (2009) A high resolution and high contrast MRI for differentiation of subcortical structures for DBS targeting: the Fast Gray Matter Acquisition T1 Inversion Recovery (FGATIR). NeuroImage 47(Suppl 2):T44–T52CrossRef

30.

Sun DA, Yu H, Spooner J, Tatsas AD, Davis T, Abel TW, Kao C, Konrad PE (2008) Postmortem analysis following 71 months of deep brain stimulation of the subthalamic nucleus for Parkinson disease. J Neurosurg 109(2):325–329CrossRef

31.

Vergani F, Landi A, Antonini A, Parolin M, Cilia R, Grimaldi M, Ferrarese C, Gaini SM, Sganzerla EP (2007) Anatomical identification of active contacts in subthalamic deep brain stimulation. Surg Neurol 67:140–147CrossRef

32.

Voges J, Volkmann J, Allert N, Lehrke R, Koulousakis A, Freund HJ, Sturm V (2002) Bilateral high-frequency stimulation in the subthalamic nucleus for the treatment of Parkinson disease: correlation of therapeutic effect with anatomical electrode position. J Neurosurg 96:269–279CrossRef

33.

Volz S, Hattingen E, Preibisch C, Gasser T, Deichmann R (2009) Reduction of susceptibility-induced signal losses in multi-gradient-echo images: application to improved visualization of the subthalamic nucleus. NeuroImage 45(4):1135–1143CrossRef

34.

Wodarg F, Herzog J, Reese R, Falk D, Pinsker MO, Steigerwald F, Jansen O, Deuschl G, Mehdorn HM, Volkmann J (2012) Stimulation site within the MRI-defined STN predicts postoperative motor outcome. Mov Disord 27(7):874–879CrossRef

35.

Yelnik J, Damier P, Demeret S, Gervais D, Bardinet E, Bejjani BP, François C, Houeto JL, Arnule I, Dormont D, Galanaud D, Pidoux B, Cornu P, Agid Y (2003) Localization of stimulating electrodes in patients with Parkinson disease by using a three-dimensional atlas–magnetic resonance imaging coregistration method. J Neurosurg 99:89–99CrossRef

36.

Yelnik J, Bardinet E, Dormont D, Malandain G, Ourselin S, Tandé D, Karachi K, Ayache N, Cornu P, Agid Y (2007) A three-dimensional, histological and deformable atlas of the human basal ganglia. I. Atlas construction based on immunohistochemical and MRI data. NeuroImage 34(2):618–638CrossRef

37.

Zheng Z, Zhang YQ, Li JY, Zhang XH, Zhuang P, Li YJ (2009) Subthalamic deep brain stimulation for Parkinson’s disease: correlation of active contacts and electrophysiologically mapped subthalamic nucleus. Chin J Med 122(20):2419–2422

38.

Zonenshayn M, Sterio D, Kelly PJ, Rezai AR, Beric A (2004) Location of the active contact within the subthalamic nucleus in the treatment of idiopathic Parkinson’s disease. Surg Neurol 62:216–226CrossRef

Title: A systematic review of studies on anatomical position of electrode contacts used for chronic subthalamic stimulation in Parkinson’s disease
Authors: François Caire
Danièle Ranoux
Dominique Guehl
Pierre Burbaud
Emmanuel Cuny
Publication date: 01-09-2013
Publisher: Springer Vienna
Published in: Acta Neurochirurgica / Issue 9/2013
Print ISSN: 0001-6268
Electronic ISSN: 0942-0940
DOI: https://doi.org/10.1007/s00701-013-1782-1

At a glance: The STEP trials

Springer Medicine

A systematic review of studies on anatomical position of electrode contacts used for chronic subthalamic stimulation in Parkinson’s disease

Abstract

Background

Method

Results

Conclusions

At a glance: The STEP trials

Springer Medicine

Abstract

Background

Method

Results

Conclusions

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