Paper

Data

Name Farokhniaee A, McIntyre CC (2019)

Description

Title Theoretical principles of deep brain stimulation induced synaptic suppression.

References Tsodyks MV, Markram H (1997) Show Other Zucker RS, Regehr WG (2002) Show Other Wang LY, Kaczmarek LK (1998) Show Other Markram H, Wang Y, Tsodyks M (1998) Show Other Hashimoto T, Elder CM, Okun MS, Patrick SK, Vitek JL (2003) Show Other STEIN RB (1965) Show Other Hauptmann C, Popovych O, Tass PA (2005) Show Other Grill WM, Cantrell MB, Robertson MS (2008) Show Other Miocinovic S, Parent M, Butson CR, Hahn PJ, Russo GS, Vitek JL, McIntyre CC (2006) Show Other Hahn PJ, McIntyre CC (2010) Show Other Tass PA (2003) Show Other McIntyre CC, Hahn PJ (2010) Show Other Neher E, Sakaba T (2008) Show Other Morrison A, Diesmann M, Gerstner W (2008) Show Other Turrigiano GG (2008) Show Other Markram H, Muller E, Ramaswamy S, Reimann MW, Abdellah M, Sanchez CA, Ailamaki A, Alonso-Nanclares L, Antille N, Arsever S, Kahou GA, Berger TK, Bilgili A, Buncic N, Chalimourda A, Chindemi G, Courcol JD, Delalondre F, Delattre V, Druckmann S, Dumusc R, Dynes J, Eilemann S, Gal E, Gevaert ME, Ghobril JP, Gidon A, Graham JW, Gupta A, Haenel V, Hay E, Heinis T, Hernando JB, Hines M, Kanari L, Keller D, Kenyon J, Khazen G, Kim Y, King JG, Kisvarday Z, Kumbhar P, Lasserre S, Le Bé JV, Magalhães BR, Merchán-Pérez A, Meystre J, Morrice BR, Muller J, Muñoz-Céspedes A, Muralidhar S, Muthurasa K, Nachbaur D, Newton TH, Nolte M, Ovcharenko A, Palacios J, Pastor L, Perin R, Ranjan R, Riachi I, Rodríguez JR, Riquelme JL, Rössert C, Sfyrakis K, Shi Y, Shillcock JC, Silberberg G, Silva R, Tauheed F, Telefont M, Toledo-Rodriguez M, Tränkler T, Van Geit W, Díaz JV, Walker R, Wang Y, Zaninetta SM (2015) Show Other Kumaravelu K, Brocker DT, Grill WM (2016) Show Other Testa-Silva G, Verhoog MB, Linaro D, de Kock CP, Baayen JC, Meredith RM, De Zeeuw CI, Giugliano M, Mansvelder HD (2014) Show Other Popovych OV, Tass PA (2012) Show Other Tass PA, Qin L, Hauptmann C, Dovero S, Bezard E, Boraud T, Meissner WG (2012) Show Other Sanders TH, Jaeger D (2016) Show Other Rosenbaum R, Rubin J, Doiron B (2012) Show Other Iremonger KJ, Anderson TR, Hu B, Kiss ZH (2006) Show Other Rosenbaum R, Zimnik A, Zheng F, Turner RS, Alzheimer C, Doiron B, Rubin JE (2014) Show Other Neher E (2015) Show Other Qiu X, Zhu Q, Sun J (2015) Show Other Sakaba T (2006) Show Other Milosevic L, Kalia SK, Hodaie M, Lozano AM, Popovic MR, Hutchison WD (2018) Show Other McIntyre CC, Anderson RW (2016) Show Other Lozano AM, Lipsman N (2013) Show Other Anderson RW, Farokhniaee A, Gunalan K, Howell B, McIntyre CC (2018) Show Other Manos T, Zeitler M, Tass PA (2018) Show Other Liu LD, Prescott IA, Dostrovsky JO, Hodaie M, Lozano AM, Hutchison WD (2012) Show Other Milosevic L, Kalia SK, Hodaie M, Lozano AM, Fasano A, Popovic MR, Hutchison WD (2018) Show Other

Authors McIntyre CC Show Other Farokhniaee A Show Other

Volume 12

First page 1402

Last page 1409

Publisher

Pubmed ID 31351911

Year published 2019

Month published

Day published

Journal or book name Brain Stimul

Book Editor(s)

Missing References [4] UrbanoFJ, LeznikE, LlinasRR. Cortical activation patterns evoked by afferent axons stimuli at different frequencies: an in vitro voltage-sensitive dye imaging study. Thalamus Relat Syst2002;1:371e8. [8] AgnesiF, MuralidharanA, BakerKB, VitekJL, JohnsonMD. Fidelity of frequency and phase entrainment of circuit-level spike activity during DBS. J Neurophysiol2014;114(2):825e34. [11] McIntyreCC, GrillWM, ShermanDL, ThakorNV. Cellular effects of deep brain stimulation: model-based analysis of activation and inhibition. J Neurophysiol2004;91(4):1457e69. [15] ThanawalaMS, RegehrWG. Determining synaptic parameters using highfrequency activation. J Neurosci Methods2016;264:136e52. [16] AndersonTR, HuB, IremongerK, KissZH. Selective attenuation of afferent synaptic transmission as a mechanism of thalamic deep brain stimulationinduced tremor arrest. J Neurosci2006;26(3):841e50. [22] AbbotLF, KeplerTB. In: Danto L, editor. Statistical mechanics of neural networks. Berlin: Springer; 1990. [24] GunalanK, HowellB, McIntyreCC. Quantifying axonal responses in patientspecific models of subthalamic deep brain stimulation. Neuroimage2018;172:263e77. [25] RubinJE, TermanD.High frequency stimulation of the subthalamic nucleus eliminates pathological thalamic rhythmicity in a computational model. J Comput Neurosci2004;16(3):211e35. [32] WangJ, NebeckS, MuralidharanA, JohnsonMD, VitekJL, BakerKB. Coordinated reset deep brain stimulation of subthalamic nucleus produces longlasting, dose-dependent motor improvements in the 1-Methyl-4-phenyl1,2,3,6-tetrahydropyridine non-human primate model of parkinsonism. Brain Stimul2016;9(4):609e17. [37] MiocinovicS, de HemptinneC, ChenW, IsbaineF, WillieJT, OstremJL, StarrPA. Cortical potentials evoked by subthalamic stimulation demonstrate a short latency hyperdirect pathway in humans. J Neurosci2018;38(43): 9129e41.

Type

Digital Object Identifier 10.1016/j.brs.2019.07.005

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