Book contents
- Deep Brain Stimulation Management
- Deep Brain Stimulation Management
- Copyright page
- Contents
- Contributors
- Preface
- Acknowledgments
- Chapter 1 Introduction
- Chapter 2 Implementing Deep Brain Stimulation into Practice
- Chapter 3 Surgical Placement of Deep Brain Stimulation Leads for Movement Disorders
- Chapter 4 New Techniques for Deep Brain Stimulation Lead Implantation
- Chapter 5 Principles of Neurostimulation
- Chapter 6 Deep Brain Stimulation Programming
- Chapter 7 When to Consider Deep Brain Stimulation for Patients with Parkinson’s Disease, Essential Tremor, or Dystonia
- Chapter 8 Managing Parkinson’s Disease Patients Treated with Deep Brain Stimulation
- Chapter 9 Managing Essential Tremor Patients with Deep Brain Stimulation
- Chapter 10 Managing Dystonia Patients Treated with Deep Brain Stimulation
- Chapter 11 Clinical Applications of Brain Sensing with Bidirectional Deep Brain Stimulation in Movement Disorders
- Chapter 12 Managing Neurostimulation for Epilepsy
- Chapter 13 Managing Patients with Psychiatric Conditions Treated with Deep Brain Stimulation
- Chapter 14 Managing Deep Brain Stimulation Patients with Tourette Syndrome and Other Emerging Applications
- Chapter 15 Assessing Patient Outcomes and Troubleshooting Deep Brain Stimulation
- Index
- References
Chapter 10 - Managing Dystonia Patients Treated with Deep Brain Stimulation
Published online by Cambridge University Press: 09 June 2022
Book contents
- Deep Brain Stimulation Management
- Deep Brain Stimulation Management
- Copyright page
- Contents
- Contributors
- Preface
- Acknowledgments
- Chapter 1 Introduction
- Chapter 2 Implementing Deep Brain Stimulation into Practice
- Chapter 3 Surgical Placement of Deep Brain Stimulation Leads for Movement Disorders
- Chapter 4 New Techniques for Deep Brain Stimulation Lead Implantation
- Chapter 5 Principles of Neurostimulation
- Chapter 6 Deep Brain Stimulation Programming
- Chapter 7 When to Consider Deep Brain Stimulation for Patients with Parkinson’s Disease, Essential Tremor, or Dystonia
- Chapter 8 Managing Parkinson’s Disease Patients Treated with Deep Brain Stimulation
- Chapter 9 Managing Essential Tremor Patients with Deep Brain Stimulation
- Chapter 10 Managing Dystonia Patients Treated with Deep Brain Stimulation
- Chapter 11 Clinical Applications of Brain Sensing with Bidirectional Deep Brain Stimulation in Movement Disorders
- Chapter 12 Managing Neurostimulation for Epilepsy
- Chapter 13 Managing Patients with Psychiatric Conditions Treated with Deep Brain Stimulation
- Chapter 14 Managing Deep Brain Stimulation Patients with Tourette Syndrome and Other Emerging Applications
- Chapter 15 Assessing Patient Outcomes and Troubleshooting Deep Brain Stimulation
- Index
- References
Summary
Successful deep brain stimulation (DBS) therapy depends on the proper implementation of a series of interrelated procedures, including appropriate candidate selection, precise lead placement, and proficient device programming. When indicated, medication adjustments and side effect troubleshooting are other important factors to optimize outcome. Competent postoperative management of DBS patients requires a detailed knowledge of the anatomy and physiology of the target area, general expertise in the treatment of movement disorders, and familiarity with the protocols for setting optimal stimulation parameters.
- Type
- Chapter
- Information
- Deep Brain Stimulation Management , pp. 152 - 171Publisher: Cambridge University PressPrint publication year: 2022
References
Isaias, IU, Tagliati, M. Deep brain stimulation programming for movement disorders. In Tarsy, D, Vitek, J, Starr, P, Okun, M, eds. Deep Brain Stimulation in Neurology and Psychiatry. Totowa, NJ: Humana Press; 2008:361–397.CrossRefGoogle Scholar
Tagliati, M, Shils, J, Sun, C, Alterman, R. Deep brain stimulation for dystonia. Expert Rev Med Devices 2004;1:33–41.Google Scholar
Vidailhet, M, Vercueil, L, Houeto, JL, et al. Bilateral, pallidal, deep-brain stimulation in primary generalized dystonia: A prospective 3 year follow-up study. Lancet Neurol 2007;6:223–229.Google Scholar
Kupsch, A, Benecke, R, Muller, J, et al. Pallidal deep-brain stimulation in primary generalized or segmental dystonia. N Engl J Med 2006;355:1978–1990.CrossRefGoogle ScholarPubMed
Cersosimo, MG, Raina, GB, Piedimonte, F, et al. Pallidal surgery for the treatment of primary generalized dystonia: Long-term follow-up. Clin Neurol Neurosurg 2008;110:145–150.Google Scholar
Sarubbo, S, Latini, F, Quatrale, R, et al. Five-year follow-up of 10 patients treated with globus pallidus internus deep brain stimulation for segmental or multisegmental dystonia. Stereotact Funct Neurosurg 2012;90(2):84–91.Google Scholar
Panov, F, Tagliati, M, Ozelius, LJ, et al. Pallidal deep brain stimulation for DYT6 dystonia. J Neurol Neurosurg Psychiatry 2012 Feb;83(2):182–187.Google Scholar
Trottenberg, T, Volkmann, J, Deuschl, G, et al. Treatment of severe tardive dystonia with pallidal deep brain stimulation. Neurology 2005;64:344–346.Google Scholar
Zhang, J, Zhang, K, Wang, Z, Ge, M, Ma, Y. Deep brain stimulation in the treatment of secondary dystonia. Chin Med J 2006;119:2069–2074.Google Scholar
Pretto, TE, Dalvi, A, Jung Kang, U, Penn, RD. A prospective blinded evaluation of deep brain stimulation for the treatment of secondary dystonia and primary torticollis syndromes. J Neurosurg 2008;109:405–409.Google Scholar
Sako, W, Goto, S, Shimazu, H, et al., Bilateral deep brain stimulation of the globus pallidus internus in tardive dystonia. Mov Disord 2008;23:1929–1931.CrossRefGoogle ScholarPubMed
Vidailhet, M, Yelnik, J, Lagrange, C, et al. Bilateral deep brain stimulation for the treatment of patients with dystonia-choreoathetosis cerebral palsy: A prospective pilot study. Lancet Neurol 2009 Aug;8(8):709–717.Google Scholar
Capelle, HH, Blahak, C, Schrader, C, et al. Chronic deep brain stimulation in patients with tardive dystonia without a history of psychosis. Mov Disord 2010 Jul 30;25(10):1477–1481.CrossRefGoogle Scholar
Chang, EF, Schrock, LE, Starr, PA, et al. Long-term benefit sustained after bilateral pallidal deep brain stimulation in patients with refractory tardive dystonia. Stereotact Funct Neurosurg, 2010;88(5):304–310.Google Scholar
Marks, WA, Honeycutt, J, Jr, Acosta F, et al. Dystonia due to cerebral palsy responds to deep brain stimulation of the globus pallidus internus. Mov Disord 2011 Aug 1;26(9):1748–1751.Google Scholar
Patel, AJ, Sarwar, AI, Kankovic, J, et al. Bilateral pallidal deep brain stimulation for X-linked dystonia parkinsonism. World Neurosurg 2013 Sep 24. Pii: S1878-8750(13)01227–8.Google Scholar
Patil, AA, Hahn, F, Sierra-Rodriguez, J, Traverse, J, Wang, S. Anatomical structures in the Leksell pallidotomy target. Stereotact Funct Neurosurg 1998;70:32–37.Google Scholar
Cao, C, Pan, Y, Li, D, et al. Subthalamus deep brain stimulation for primary dystonia patients: A long-term follow-up study. Mov Disord 2013 Nov;28 :1877–1882.Google Scholar
Schjerling, L, Hjermind, LE, Jesperson, B, et al. A randomized double-blind crossover trial comparing subthalamic and pallidal deep brain stimulation for dystonia. J Neurosurg 2013;119:1537–1545.CrossRefGoogle ScholarPubMed
Kleiner-Fisman, G, Linliang, GS, Moberg, PJ, et al. Subthalamic nucleus deep brain stimulation for severe idiopathic dystonia: Impact on severity, neuropsychological status, and quality of life. J Neurosurg 2007;107:29–36.Google Scholar
Parhapill, PA, O’Connell, B. Long-term follow-up study of chronic deep brain stimulation of the subthalamic nucleus for cervical dystonia. Neuromodulation 2010 Jan;13:26–30.Google Scholar
Ostrem, JL, Racine, CA, Glass, GA, et al. Subthalamic nucleus deep brain stimulation in primary cervical dystonia. Neurology 2011;76:870–878.Google Scholar
Ostrem, JL, Markun, LC, Glass, GA, et al. Effect of frequency on subthalamic nucleus deep brain stimulation in primary dystonia. Parkinsonism Relat Disord 2014 Apr;20(4):432–438.Google Scholar
Hedera, P, Phibbs, FT, Dolhun, R, et al. Surgical targets for dystonic tremor: Considerations between the globus pallidus and ventral intermediate thalamic nucleus. Parkinsonism Relat Disord 2013 Jul;19(7):684–686.Google Scholar
Woehrle, JC, Blahak, C, Kekelia, K, et al. Chronic deep brain stimulation for segmental dystonia. Stereotact Funct Neurosurg 2009;87(6):379–384.Google Scholar
Cersosimo, MG, Raina, GB, Benarroch, EE, et al. Micro lesion effect of the globus pallidus internus and outcome with deep brain stimulation in patients with Parkinson disease and dystonia. Mov Disord 2009 Jul 30;24(10):1488–1493.Google Scholar
Bejjani, BP, Damier, P, Arnulf, I, et al. Deep brain stimulation in Parkinson’s disease: Opposite effects of stimulation in the pallidum. Mov Disord 1998;13:969–970.CrossRefGoogle ScholarPubMed
Iansek, R, Porter, R. The monkey globus pallidus: Neuronal discharge properties in relation to movement. J Physiol 1980;301:439–455.Google Scholar
Parent, A, Hazrati, LN. Functional anatomy of the basal ganglia. The cortico-basal ganglia-thalamo-cortical loop. Brain Res Rev 1995;20:91–127.Google Scholar
Starr, PA, Turner, RS, Rau, G, et al. Microelectrode-guided implantation of deep brain stimulators into the globus pallidus internus for dystonia: Techniques, electrode locations, and outcomes. J Neurosurg 2006;104:488–501.Google Scholar
Tisch, S, Zrinzo, L, Limousin, P, et al. Effect of electrode contact location on clinical efficacy of pallidal deep brain stimulation in primary generalised dystonia. J Neurol Neurosurg Psychiatry 2007;78:1314–1319.Google Scholar
Vayssiere, N, Van der Gaag, N, Cif, L, et al. Deep brain stimulation for dystonia confirming a somatotopic organization in the globus pallidus internus. J Neurosurg 2004;101:181–188.Google Scholar
Houeto, JL, Yelnik, J, Bardinet, E, et al. French Stimulation du Pallidum Interne dans la Dystonie Study Group. Acute deep-brain stimulation of the internal and external globus pallidus in primary dystonia: Functional mapping of the pallidum. Arch Neurol 2007;64:1281–1286.Google Scholar
Isaias, IU, Alterman, R, Tagliati, M. Deep brain stimulation for primary generalized dystonia: Long-term outcomes. Arch Neurol 2009;66:465–470.Google Scholar
Panov, F, Gologorsky, Y, Connors, G, et al. Deep brain stimulation in DYT1 dystonia: A 10-year experience. Neurosurgery 2013;73:86–93.Google Scholar
Steigerwald, F, Kirsch, AD, Kühn, AA et al. Evaluation of a programming algorithm for deep brain stimulation in dystonia used in a double-blind, sham-controlled multicenter study. Neurol Res Pract 2019;1:25.CrossRefGoogle Scholar
Cheung, T, Noecker, AM, Alterman, RL, McIntyre, CC, Tagliati, M. Defining a therapeutic target for pallidal deep brain stimulation for dystonia. Ann Neurol 2014;76:22–30.Google Scholar
Reich, MM, Horn, A, Lange, F, Roothans, J, Paschen, S, Runge, J, Wodarg, F, Pozzi, NG, Witt, K, Nickl, RC, Soussand, L, Ewert, S, Maltese, V, Wittstock, M, Schneider, GH, Coenen, V, Mahlknecht, P, Poewe, W, Eisner, W, Helmers, AK, Matthies, C, Sturm, V, Isaias, IU, Krauss, JK, Kühn, AA, Deuschl, G, Volkmann, J. Probabilistic mapping of the antidystonic effect of pallidal neurostimulation: A multicentre imaging study. Brain 2019 May 1;142(5):1386–1398.Google Scholar
Zittel, S, Hidding, U, Trumpfheller, M, Baltzer, VL, Gulberti, A, Schaper, M, Biermann, M, Buhmann, C, Engel, AK, Gerloff, C, Westphal, M, Stadler, J, Köppen, JA, Pötter-Nerger, M, Moll, CKE, Hamel, W. Pallidal lead placement in dystonia: Leads of non-responders are contained within an anatomical range defined by responders. J Neurol 2020 Jun;267(6):1663–1671.Google Scholar
Picillo, M, Lozano, AM, Kou, N, Munhoz, RP, Fasano, A. Programming deep brain stimulation for tremor and dystonia: The Toronto Western Hospital Algorithms. Brain Stimul 2016 May–Jun;9(3):438–452.Google Scholar
Bally, JF, Rohani, M, Ruiz-Lopez, M, Paramanandam, V, Munhoz, RP, Hodaie, M, Kalia, SK, Lozano, AM, Burkhard, PR, Poncet, A, Fasano, A. Patient-adjusted deep-brain stimulation programming is time saving in dystonia patients. J Neurol 2019 Oct;266(10):2423–2429.Google Scholar
Yianni, J, Bain, P, Giladi, N, et al. Globus pallidus internus deep brain stimulation for dystonic conditions: Prospective audit. Mov Disord 2003;18:436–442.Google Scholar
Moro, E, Gross, RE, Krauss, JK. What’s new in surgical treatment for dystonia? Mov Disord 2013;28:1013–1020.Google Scholar
Coubes, P, Roubertie, A, Vayssiere, N, Hemm, S, Echenne, B. Treatment of DYT1-generalised dystonia by stimulation of the internal globus pallidus. Lancet 2000;355:2220–2221.CrossRefGoogle ScholarPubMed
Cif, L, El Fertit, H, Vayssiere, N, et al. Treatment of dystonic syndromes by chronic electrical stimulation of the internal globus pallidus. J Neurosurg Sci 2003;47:52–55.Google Scholar
Kumar, R. Methods for programming and patient management with deep brain stimulation of the globus pallidus for the treatment of advanced Parkinson’s disease and dystonia. Mov Disord 2002;17:198–207.Google Scholar
Vidailhet, M, Vercueil, L, Houeto, JL, et al. Bilateral deep-brain stimulation of the globus pallidus in primary generalized dystonia. N Engl J Med 2005;352:459–467.CrossRefGoogle ScholarPubMed
Cheung, T, Nuño, M, Hoffman, M, Katz, M, Kilbane, C, Alterman, R, Tagliati, M. Longitudinal impedance variability in patients with chronically implanted DBS devices. Brain Stimul 2013;6:746–751.CrossRefGoogle ScholarPubMed
Bronstein, JM, Tagliati, M, McIntyre, C, Chen, R, Cheung, T, Hargreaves, EL, Israel, Z, Moffitt, M, Montgomery, EB, Stypulkowski, P, Shils, J, Denison, T, Vitek, J, Volkman, J, Wertheimer, J, Okun, MS. The rationale driving the evolution of deep brain stimulation to constant-current devices. Neuromodulation 2015 Feb;18(2):85–88; discussion 88–89.Google Scholar
Lettieri, C, Rinaldo, S, Devigili, G, Pisa, F, Mucchiut, M, Belgrado, E, Mondani, M, D’Auria, S, Ius, T, Skrap, M, Eleopra, R. Clinical outcome of deep brain stimulation for dystonia: Constant-current or constant-voltage stimulation? A non-randomized study. Eur J Neurol 2015 Jun;22(6):919–926.Google Scholar
Preda, F, Cavandoli, C, Lettieri, C, Pilleri, M, Antonini, A, Eleopra, R, Mondani, M, Martinuzzi, A, Sarubbo, S, Ghisellini, G, Trezza, A, Cavallo, MA, Landi, A, Sensi, M. Switching from constant voltage to constant current in deep brain stimulation: A multicenter experience of mixed implants for movement disorders. Eur J Neurol 2016 Jan;23(1):190–195.Google Scholar
Volkmann, J, Herzog, J, Kopper, F, Deuschl, G. Introduction to the programming of deep brain stimulators. Mov Disord. 2002;17 Suppl 3:S181–S187.Google Scholar
Vercueil, L, Houeto, JL, Krystkowiak, P, et al. Effects of pulse width variations in pallidal stimulation for primary generalized dystonia. J Neurol 2007;254:1533–1537.Google Scholar
Kupsch, A, Klaffke, S, Kuhn, AA, et al. The effects of frequency in pallidal deep brain stimulation for primary dystonia. J Neurol 2003;250:1201–1205.CrossRefGoogle ScholarPubMed
Alterman, RL, Miravite, J, Weisz, D, et al. Sixty hertz pallidal deep brain stimulation for primary torsion dystonia. Neurology 2007;69:681–688.Google Scholar
Alterman, RL, Snyde, BJ. Deep brain stimulation for torsion dystonia. Acta Neurochir Suppl 2007;97:191–199.CrossRefGoogle ScholarPubMed
Kim, JP, Chang, WS, Park, YS, et al. Effects of relative low-frequency bilateral globus pallidus internus stimulation for treatment of cervical dystonia. Stereotact Funct Neurosurg 2012;90:30–36.Google Scholar
Kumar, R, Dagher, A, Hutchison, WD, Lang, AE, Lozano, AM. Globus pallidus deep brain stimulation for generalized dystonia: Clinical and PET investigation. Neurology 1999;53:871–874.Google Scholar
Coubes, P, Cif, L, El Fertit, H, et al. Electrical stimulation of the globus pallidus internus in patients with primary generalized dystonia: Long-term results. J Neurosurg 2004;101:189–194.Google Scholar
Tagliati, M, Martin, CE, Alterman, RL. Optimal pallidal stimulation frequency for dystonia may vary with age. Mov Disord 2008;23(Suppl 1):S113.Google Scholar
Isaias, IU, Alterman, R, Tagliati, M. Outcome predictors of pallidal stimulation in patients with primary dystonia: The role of disease duration. Brain 2008;131:1895–1902.CrossRefGoogle ScholarPubMed
Artusi, CA, Dwivedi, A, Romagnolo, A, Bortolani, S, Marsili, L, Imbalzano, G, Sturchio, A, Keeling, EG, Zibetti, M, Contarino, MF, Fasano, A, Tagliati, M, Okun, MS, Espay, AJ, Lopiano, L, Merola, A. Differential response to pallidal deep brain stimulation among monogenic dystonias: Systematic review and meta-analysis. J Neurol Neurosurg Psychiatry 2020 Apr;91(4):426–433.Google Scholar
Moro, E, LeReun, C, Krauss, JK, Albanese, A, Lin, JP, Walleser Autiero, S, Brionne, TC, Vidailhet, M. Efficacy of pallidal stimulation in isolated dystonia: A systematic review and meta-analysis. Eur J Neurol. 2017 Apr;24(4):552–560.CrossRefGoogle ScholarPubMed
Tsuboi, T, Wong, JK, Almeida, L, Hess, CW, Wagle Shukla, A, Foote, KD, Okun, MS, Ramirez-Zamora, A. A pooled meta-analysis of GPi and STN deep brain stimulation outcomes for cervical dystonia. J Neurol 2020 May;267(5):1278–1290.Google Scholar
FitzGerald, JJ, Rosendal, F, de Pennington, N, Joint, C, Forrow, B, Fletcher, C, Green, AL, Aziz, TZ. Long-term outcome of deep brain stimulation in generalised dystonia: A series of 60 cases. J Neurol Neurosurg Psychiatry 2014 Dec;85(12):1371–1376.Google Scholar
Sobstyl, M, Kmieć, T, Ząbek, M, Szczałuba, K, Mossakowski, Z. Long-term outcomes of bilateral pallidal stimulation for primary generalised dystonia. Clin Neurol Neurosurg 2014 Nov;126:82–87.Google Scholar
Krause, P, Völzmann, S, Ewert, S, Kupsch, A, Schneider, GH, Kühn, AA. Long-term effects of bilateral pallidal deep brain stimulation in dystonia: A follow-up between 8 and 16 years. J Neurol 2020 Jun;267(6):1622–1631.Google Scholar
Loher, TJ, Capelle, HH, Kaelin-Lang, A, Weber, S, Weigel, R, Burgunder, JM, Krauss, JK. Deep brain stimulation for dystonia: Outcome at long-term follow-up. J Neurol 2008 Jun;255(6):881–884.CrossRefGoogle ScholarPubMed
Hung, SW, Hamani, C, Lozano, AM, Poon, YY, Piboolnurak, P, Miyasaki, JM, Lang, AE, Dostrovsky, JO, Hutchison, WD, Moro, E. Long-term outcome of bilateral pallidal deep brain stimulation for primary cervical dystonia. Neurology 2007 Feb 6;68(6):457–459.CrossRefGoogle ScholarPubMed
Horisawa, S, Ochiai, T, Goto, S, Nakajima, T, Takeda, N, Kawamata, T, Taira, T. Long-term outcome of pallidal stimulation for Meige syndrome. J Neurosurg 2018 Jan 19;130(1):84–89.Google Scholar
Tian, H, Yu, Y, Zhen, X, Zhang, L, Yuan, Y, Zhang, B, Wang, L. Long-term efficacy of deep brain stimulation of bilateral globus pallidus internus in primary Meige syndrome. Stereotact Funct Neurosurg 2019;97(5–6):356–361.Google Scholar
Park, HR, Lee, JM, Ehm, G, Yang, HJ, Song, IH, Lim, YH, Kim, MR, Kim, KR, Lee, WW, Kim, YE, Hwang, JH, Shin, CW, Park, H, Kim, JW, Kim, HJ, Kim, C, Kim, DG, Jeon, BS, Paek, SH. Long-term clinical outcome of internal globus pallidus deep brain stimulation for eystonia. PLoS One 2016 Jan 8;11(1):e0146644.CrossRefGoogle Scholar
Meoni, S, Fraix, V, Castrioto, A, Benabid, AL, Seigneuret, E, Vercueil, L, Pollak, P, Krack, P, Chevrier, E, Chabardes, S, Moro, E. Pallidal deep brain stimulation for dystonia: A long term study. J Neurol Neurosurg Psychiatry 2017 Nov;88(11):960–967.Google Scholar
Gruber, D, Trottenberg, T, Kivi, A, Schoenecker, T, Kopp, UA, Hoffmann, KT, Schneider, GH, Kühn, AA, Kupsch, A. Long-term effects of pallidal deep brain stimulation in tardive dystonia. Neurology. 2009 Jul 7;73(1):53–58.CrossRefGoogle ScholarPubMed
Ostrem, JL, San Luciano, M, Dodenhoff, KA, Ziman, N, Markun, LC, Racine, CA, de Hemptinne, C, Volz, MM, Heath, SL, Starr, PA. Subthalamic nucleus deep brain stimulation in isolated dystonia: A 3-year follow-up study. Neurology 2017 Jan 3;88(1):25–35.Google Scholar
Krause, M, Fogel, W, Kloss, M, et al. Pallidal stimulation for dystonia. Neurosurgery 2004;55:1361–1370.CrossRefGoogle ScholarPubMed
Ostrem, JL, Marks, WJ, Volz, MM, et al. Pallidal deep brain stimulation in patients with cranial-cervical dystonia (Meige syndrome). Mov Disord 2007;22:1885–1891.CrossRefGoogle ScholarPubMed
Zauber, SE, Watson, N, Comella, CL, Bakay, RA, Metman, LV. Stimulation-induced parkinsonism after posteroventral deep brain stimulation of the globus pallidus internus for craniocervical dystonia. J Neurosurg 2009 Feb;110(2):229–233.Google Scholar
Berman, BD, Starr, PA, Marks, JWJ, et al. Induction of bradykinesia with pallidal deep brain stimulation in patients with cranial-cervical dystonia. Stereotact Funct Neurosurg 2009;87:37–44.Google Scholar
Schrader, C, Capelle, H-H, Kinfe, TM, et al. GPi-DBS may induce a hypokinetic gait disorder with freezing of gait in patients with dystonia. Neurology 2011;77:483–488.Google Scholar
Blahak, C, Capelle, HH, Baezner, H, Kinfe, TM, Hennerici, MG, Krauss, JK. Micrographia induced by pallidal DBS for segmental dystonia: A subtle sign of hypokinesia? J Neural Transm (Vienna) 2011 Apr;118(4):549–553.Google Scholar
Amtage, F, Feuerstein, TJ, Meier, S, et al. Hypokinesia upon pallidal deep brain stimulation of systonia: Support of a GABAergic mechanism. Front Neurol 2013;4:198.CrossRefGoogle Scholar
Hogg, E, During, E, Tan, EE, Athreya, K, Eskenazi, J, Basile, C, Alterman, R, Mamelak, A, Tagliati, M. Sustained quality of life after DBS therapy for generalized dystonia. Mov Disord 2018;33:1160–1167.Google Scholar
Reese, R, Fasano, A, Knudsen, K, Herzog, J, Falk, D, Mehdorn, HM, Deuschl, G, Volkmann, J. Full parkinsonian triad induced by pallidal high-frequency stimulation in cervical dystonia. Mov Disord Clin Pract 2014 Nov 4;2(1):99–101.Google Scholar
Comella, CL, Leurgans, S, Wuu, J, Stebbins, GT, Chmura, T. Dystonia Study Group. Rating scales for dystonia: A multicenter assessment. Mov Disord 2003;18:303–312.CrossRefGoogle Scholar
Comella, CL, Stebbins, GT, Goetz, CG, et al. Teaching tape for the motor section of the Toronto Western Spasmodic Torticollis Scale. Mov Disord 1997;12:570–575.Google Scholar
Vercueil, L, Krack, P, Pollak, P. Results of deep brain stimulation for dystonia: A critical reappraisal. Mov Disord 2002;17:89–93.CrossRefGoogle ScholarPubMed
Rezai, AR, Kopell, BH, Gross, RE, et al. Deep brain stimulation for Parkinson’s disease: Surgical issues. Mov Disord 2006;21(Suppl 14):S197–S218.Google Scholar
Blomstedt, P, Hariz, MI. Hardware-related complications of deep brain stimulation: A ten year experience. Acta Neurochir 2005;147:1061–1064.Google Scholar
Yianni, J, Nandi, D, Shad, A, et al. Increased risk of lead fracture and migration in dystonia compared with other movement disorders following deep brain stimulation. J Clin Neurosci 2004;11:243–5.Google Scholar
Steigerwald, F, Matthies, C, Volkmann, J. Directional deep brain stimulation. Neurotherapeutics 2019 Jan;16(1):100–104.Google Scholar
Schnitzler, A, Mir, P, Brodsky, MA, Verhagen, L, Groppa, S, Alvarez, R, Evans, A, Blazquez, M, Nagel, S, Pilitsis, JG, Pötter-Nerger, M, Tse, W, Almeida, L, Tomycz, N, Jimenez-Shahed, J, Libionka, W, Carrillo, F, Hartmann, CJ, Groiss, SJ, Glaser, M, Defresne, F, Karst, E, Cheeran, B, Vesper, J, PROGRESS Study Investigators. Directional deep brain stimulation for Parkinson’s disease: Results of an international crossover study with randomized, double-blind primary endpoint. Neuromodulation. 2021 May 27. doi: 10.1111/ner.13407. Online ahead of print. PMID: 34047410.Google Scholar
Dembek, TA, Reker, P, Visser-Vandewalle, V, Wirths, J, Treuer, H, Klehr, M, Roediger, J, Dafsari, HS, Barbe, MT, Timmermann, L. Directional DBS increases side-effect thresholds: A prospective, double-blind trial. Mov Disord 2017 Oct;32(10):1380–1388.CrossRefGoogle ScholarPubMed
Zhang, S, Tagliati, M, Pouratian, N, Cheeran, B, Ross, E, Pereira, E. Steering the volume of tissue activated with a directional deep brain stimulation lead in the globus pallidus pars interna: A modeling study with heterogeneous tissue properties. Front Comput Neurosci 2020 Sep 25;14:561180.Google Scholar
Brown, P, Williams, D. Basal ganglia local field potential activity: Character and functional significance in the human. Clin Neurophysiol 2005 Nov;116(11):2510–2519.Google Scholar
Chen, CC, Kühn, AA, Hoffmann, KT, Kupsch, A, Schneider, GH, Trottenberg, T, Krauss, JK, Wöhrle, JC, Bardinet, E, Yelnik, J, Brown, P. Oscillatory pallidal local field potential activity correlates with involuntary EMG in dystonia. Neurology 2006 Feb 14;66(3):418–420.Google Scholar
Scheller, U, Lofredi, R, Van Wijk, BCM, Saryyeva, A, Krauss, JK, Schneider, GH, Kroneberg, D, Krause, P, Neumann, WJ, Kühn, AA. Pallidal low-frequency activity in dystonia after cessation of long-term deep brain stimulation. Mov Disord 2019 Nov;34(11):1734–1739.Google Scholar
Neumann, WJ, Horn, A, Ewert, S, Huebl, J, Brücke, C, Slentz, C, Schneider, GH, Kühn, AA. A localized pallidal physiomarker in cervical dystonia. Ann Neurol 2017 Dec;82(6):912–924.CrossRefGoogle ScholarPubMed
Bereznai, B, Steude, U, Seelos, K, Botzel, K. Chronic high-frequency globus pallidus internus stimulation in different types of dystonia: A clinical, video, and MRI report of six patients presenting with segmental, cervical, and generalized dystonia. Mov Disord 2002;17:138–144.Google Scholar
Krauss, JK, Loher, TJ, Weigel, R, et al. Chronic stimulation of the globus pallidus internus for treatment of non-dYT1 generalized dystonia and choreoathetosis: Two-year follow up. J Neurosurg 2003; 98:785–792.Google Scholar
Starr, PA, Turner, RS, Rau, G, et al. Microelectrode-guided implantation of deep brain stimulators into the globus pallidus internus for dystonia: Techniques, electrode locations, and outcomes. Neurosurg Focus 2004;17:E4.Google Scholar
Volkmann, J, Wolters, A, Kupsch, A, Müller, J, Kühn, AA, Schneider, GH, Poewe, W, Hering, S, Eisner, W, Müller, JU, Deuschl, G, Pinsker, MO, Skogseid, IM, Roeste, GK, Krause, M, Tronnier, V, Schnitzler, A, Voges, J, Nikkhah, G, Vesper, J, Classen, J, Naumann, M, Benecke, R, DBS Study Group for Dystonia. Pallidal deep brain stimulation in patients with primary generalised or segmental dystonia: 5-year follow-up of a randomised trial. Lancet Neurol 2012 Dec;11(12):1029–1038.Google Scholar
Petrossian, MT, Paul, LR, Multhaupt-Buell, TJ, et al. Pallidal deep brain stimulation for dystonia: A case series. J Neurosurg Pediatrics 2013;12:582–587.Google Scholar
Lin, S, Wu, Y, Li, H, Zhang, C, Wang, T, Pan, Y, He, L, Shen, R, Deng, Z, Sun, B, Ding, J, Li, D. Deep brain stimulation of the globus pallidus internus versus the subthalamic nucleus in isolated dystonia. J Neurosurg 2019 Mar;8:1–12.Google Scholar
Stavrinou, LC, Liouta, E, Boviatsis, EJ, Leonardos, A, Gatzonis, S, Stathis, P, Sakas, DE, Angelakis, E. Effect of constant-current pallidal deep brain stimulation for primary dystonia on cognition, mood and quality of life: Results from a prospective pilot trial. Clin Neurol Neurosurg 2019 Oct;185:105460.Google Scholar
Ågren, R, Bartek, J Jr, Johansson, A, Blomstedt, P, Fytagoridis, A. Pulse width and implantable pulse generator longevity in pallidal deep brain stimulation for dystonia: A population-based comparative effectiveness study. Stereotact Funct Neurosurg 2020;98(5):331–336.Google Scholar
Deng, Z, Pan, Y, Zhang, C, Zhang, J, Qiu, X, Zhan, S, Li, D, Sun, B. Subthalamic deep brain stimulation in patients with primary dystonia: A ten-year follow-up study. Parkinsonism Relat Disord 2018 Oct;55:103–110.Google Scholar
Walsh, RA, Sidiropoulos, C, Lozano, AM, Hodaie, M, Poon, YY, Fallis, M, Moro, E. Bilateral pallidal stimulation in cervical dystonia: Blinded evidence of benefit beyond 5 years. Brain 2013 Mar;136(Pt 3):761–769.Google Scholar
Volkmann, J, Mueller, J, Deuschl, G, Kühn, AA, Krauss, JK, Poewe, W, Timmermann, L, Falk, D, Kupsch, A, Kivi, A, Schneider, GH, Schnitzler, A, Südmeyer, M, Voges, J, Wolters, A, Wittstock, M, Müller, JU, Hering, S, Eisner, W, Vesper, J, Prokop, T, Pinsker, M, Schrader, C, Kloss, M, Kiening, K, Boetzel, K, Mehrkens, J, Skogseid, IM, Ramm-Pettersen, J, Kemmler, G, Bhatia, KP, Vitek, JL, Benecke, R, DBS Study Group for Dystonia. Pallidal neurostimulation in patients with medication-refractory cervical dystonia: A randomised, sham-controlled trial. Lancet Neurol 2014 Sep;13(9):875–884.Google Scholar
Kaelin-Lang, A, You, H, Burgunder, JM, Lönnfors-Weitze, T, Loher, TJ, Taub, E, Isaias, IU, Krauss, JK, Michael Schüpbach, WM. Bilateral pallidal stimulation improves cervical dystonia for more than a decade. Parkinsonism Relat Disord 2020 Dec;81:78–81.Google Scholar
Wang, X, Mao, Z, Cui, Z, Xu, X, Pan, L, Liang, S, Ling, Z, Yu, X. Predictive factors for long-term clinical outcomes of deep brain stimulation in the treatment of primary Meige syndrome. J Neurosurg. 2019 Apr;5:1–9.Google Scholar
Tian, H, Xiong, NX, Xiong, N, Liu, XM, Rao, J, Xiang, W, Jiang, XB, Zhao, HY, Fu, P. Similar long-term clinical outcomes of deep brain stimulation with different electrode targets for primary Meige syndrome: One institution’s experience of 17 cases. Neuromodulation 2021 Nov 6;24(2):300–306.Google Scholar
Yao, C, Horn, A, Li, N, Lu, Y, Fu, Z, Wang, N, Aziz, TZ, Wang, L, Zhang, S. Post-operative electrode location and clinical efficacy of subthalamic nucleus deep brain stimulation in Meige syndrome. Parkinsonism Relat Disord 2019;58:40–45.Google Scholar
Zhan, S, Sun, F, Pan, Y, Liu, W, Huang, P, Cao, C, Zhang, J, Li, D, Sun, B. Bilateral deep brain stimulation of the subthalamic nucleus in primary Meige syndrome. J Neurosurg 2018 Mar;128(3):897–902.CrossRefGoogle ScholarPubMed
Ouyang, J, Hao, Q, Zhu, R, Wu, G, Ding, H, Wang, D, Liu, R. Subthalamic nucleus deep brain stimulation in primary Meige syndrome: A 1-year follow-up study. Neuromodulation 2021 Feb;24(2):293–299. doi: 10.1111/ner.13174. Epub 2020 Jun 1.CrossRefGoogle ScholarPubMed
Vidailhet, M, Yelnik, J, Lagrange, C, Fraix, V, Grabli, D, Thobois, S, Burbaud, P, Welter, ML, Xie-Brustolin, J, Braga, MC, Ardouin, C, Czernecki, V, Klinger, H, Chabardes, S, Seigneuret, E, Mertens, P, Cuny, E, Navarro, S, Cornu, P, Benabid, AL, Le Bas, JF, Dormont, D, Hermier, M, Dujardin, K, Blond, S, Krystkowiak, P, Destée, A, Bardinet, E, Agid, Y, Krack, P, Broussolle, E, Pollak, P, French SPIDY-2 Study Group. Bilateral pallidal deep brain stimulation for the treatment of patients with dystonia-choreoathetosis cerebral palsy: A prospective pilot study. Lancet Neurol 2009 Aug;8(8):709–717.Google Scholar
Timmermann, L, Pauls, KA, Wieland, K, Jech, R, Kurlemann, G, Sharma, N, Gill, SS, Haenggeli, CA, Hayflick, SJ, Hogarth, P, Leenders, KL, Limousin, P, Malanga, CJ, Moro, E, Ostrem, JL, Revilla, FJ, Santens, P, Schnitzler, A, Tisch, S, Valldeoriola, F, Vesper, J, Volkmann, J, Woitalla, D, Peker, S. Dystonia in neurodegeneration with brain iron accumulation: Outcome of bilateral pallidal stimulation. Brain 2010 Mar;133(Pt 3):701–712.CrossRefGoogle ScholarPubMed