Toward adaptive deep brain stimulation for dystonia

被引:33
作者
Pina-Fuentes, Dan [1 ,2 ]
Beudel, Martijn [2 ,3 ]
Little, Simon [4 ]
van Zijl, Jonathan [2 ]
Elting, Jan Willem [2 ]
Oterdoom, D. L. Marinus [1 ]
van Egmond, Martje E. [2 ]
van Dijk, J. Marc C. [1 ]
Tijssen, Marina A. J. [2 ]
机构
[1] Univ Groningen, Univ Med Ctr Groningen, Dept Neurosurg, Groningen, Netherlands
[2] Univ Groningen, Univ Med Ctr Groningen, Dept Neurol, Groningen, Netherlands
[3] Isala Klin, Dept Neurol, Zwolle, Netherlands
[4] UCL Inst Neurol, Sobell Dept Motor Neurosci & Movement Disorders, Queen Sq, London, England
来源
NEUROSURGICAL FOCUS | 2018年 / 45卷 / 02期
基金
英国惠康基金;
关键词
adaptive deep brain stimulation; dystonia; local field potentials; electromyography; low-frequency oscillations; LOCAL-FIELD POTENTIALS; GLOBUS-PALLIDUS INTERNUS; PARKINSONS-DISEASE; OSCILLATORY ACTIVITY; CERVICAL DYSTONIA; SUBTHALAMIC NUCLEUS; SEGMENTAL DYSTONIA; MOVEMENT-DISORDERS; MYOCLONUS-DYSTONIA; SUSTAINED RELIEF;
D O I
10.3171/2018.5.FOCUS18155
中图分类号
R74 [神经病学与精神病学];
学科分类号
摘要
The presence of abnormal neural oscillations within the cortico-basal ganglia-thalamo-cortical (CBGTC) network has emerged as one of the current principal theories to explain the pathophysiology of movement disorders. In theory, these oscillations can be used as biomarkers and thereby serve as a feedback signal to control the delivery of deep brain stimulation (DBS). This new form of DBS, dependent on different characteristics of pathological oscillations, is called adaptive DBS (aDBS), and it has already been applied in patients with Parkinson's disease. In this review, the authors summarize the scientific research to date on pathological oscillations in dystonia and address potential biomarkers that might be used as a feedback signal for controlling aDBS in patients with dystonia.
引用
收藏
页数:8
相关论文
共 75 条
[1]  
Agnesi Filippo, 2013, Handb Clin Neurol, V116, P39, DOI 10.1016/B978-0-444-53497-2.00004-8
[2]   Phenomenology and classification of dystonia: A consensus update [J].
Albanese, Alberto ;
Bhatia, Kailash ;
Bressman, Susan B. ;
DeLong, Mahlon R. ;
Fahn, Stanley ;
Fung, Victor S. C. ;
Hallett, Mark ;
Jankovic, Joseph ;
Jinnah, Hyder A. ;
Klein, Christine ;
Lang, Anthony E. ;
Mink, Jonathan W. ;
Teller, Jan K. .
MOVEMENT DISORDERS, 2013, 28 (07) :863-873
[3]   Which patients with dystonia benefit from deep brain stimulation? A metaregression of individual patient outcomes [J].
Andrews, Caroline ;
Aviles-Olmos, Iciar ;
Hariz, Marwan ;
Foltynie, Thomas .
JOURNAL OF NEUROLOGY NEUROSURGERY AND PSYCHIATRY, 2010, 81 (12) :1383-1389
[4]   Dystonia: an update on phenomenology, classification, pathogenesis and treatment [J].
Balint, Bettina ;
Bhatia, Kailash P. .
CURRENT OPINION IN NEUROLOGY, 2014, 27 (04) :468-476
[5]   Deep brain stimulation suppresses pallidal low frequency activity in patients with phasic dystonic movements [J].
Barow, Ewgenia ;
Neumann, Wolf-Julian ;
Bruecke, Christof ;
Huebl, Julius ;
Horn, Andreas ;
Brown, Peter ;
Krauss, Joachim K. ;
Schneider, Gerd-Helge ;
Kuehn, Andrea A. .
BRAIN, 2014, 137 :3012-3024
[6]   The pathophysiology of primary dystonia [J].
Berardelli, A ;
Rothwell, JC ;
Hallett, M ;
Thompson, PD ;
Manfredi, M ;
Marsden, CD .
BRAIN, 1998, 121 :1195-1212
[7]   Induction of Bradykinesia with Pallidal Deep Brain Stimulation in Patients with Cranial-Cervical Dystonia [J].
Berman, Brian D. ;
Starr, Philip A. ;
Marks, William J., Jr. ;
Ostrem, Jill L. .
STEREOTACTIC AND FUNCTIONAL NEUROSURGERY, 2009, 87 (01) :37-44
[8]   Short- and long-term outcome of chronic pallidal neurostimulation in monogenic isolated dystonia [J].
Brueggemann, Norbert ;
Kuehn, Andrea ;
Schneider, Susanne A. ;
Kamm, Christoph ;
Wolters, Alexander ;
Krause, Patricia ;
Moro, Elena ;
Steigerwald, Frank ;
Wittstock, Matthias ;
Tronnier, Volker ;
Lozano, Andres M. ;
Hamani, Clement ;
Poon, Yu-Yan ;
Zittel, Simone ;
Waechter, Tobias ;
Deuschl, Guenther ;
Krueger, Rejko ;
Kupsch, Andreas ;
Muenchau, Alexander ;
Lohmann, Katja ;
Volkmann, Jens ;
Klein, Christine .
NEUROLOGY, 2015, 84 (09) :895-903
[9]   Oscillatory pallidal local field potential activity correlates with involuntary EMG in dystonia [J].
Chen, CC ;
Kühn, AA ;
Hoffmann, KT ;
Kupsch, A ;
Schneider, GH ;
Trottenberg, T ;
Krauss, JK ;
Wöhrle, JC ;
Bardinet, E ;
Yelnik, J ;
Brown, P .
NEUROLOGY, 2006, 66 (03) :418-420
[10]   Mechanism of Deep Brain Stimulation: Inhibition, Excitation, or Disruption? [J].
Chiken, Satomi ;
Nambu, Atsushi .
NEUROSCIENTIST, 2016, 22 (03) :313-322
12345678