Adamchic I et al. (2014). Coordinated reset neuromodulation for Parkinson's disease: proof-of-concept study. Movement disorders : official journal of the Movement Disorder Society. 29 [PubMed]
Andres FG, Gerloff C. (1999). Coherence of sequential movements and motor learning. Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society. 16 [PubMed]
Benabid AL, Chabardes S, Mitrofanis J, Pollak P. (2009). Deep brain stimulation of the subthalamic nucleus for the treatment of Parkinson's disease. The Lancet. Neurology. 8 [PubMed]
Benabid AL et al. (1991). Long-term suppression of tremor by chronic stimulation of the ventral intermediate thalamic nucleus. Lancet (London, England). 337 [PubMed]
Beudel M, Brown P. (2016). Adaptive deep brain stimulation in Parkinson's disease. Parkinsonism & related disorders. 22 Suppl 1 [PubMed]
Britton TC et al. (1993). Modulation of postural wrist tremors by magnetic stimulation of the motor cortex in patients with Parkinson's disease or essential tremor and in normal subjects mimicking tremor. Annals of neurology. 33 [PubMed]
Britton TC et al. (1993). Modulation of postural tremors at the wrist by supramaximal electrical median nerve shocks in essential tremor, Parkinson's disease and normal subjects mimicking tremor. Journal of neurology, neurosurgery, and psychiatry. 56 [PubMed]
Bronstein JM et al. (2011). Deep brain stimulation for Parkinson disease: an expert consensus and review of key issues. Archives of neurology. 68 [PubMed]
Bronte-Stewart H et al. (2009). The STN beta-band profile in Parkinson's disease is stationary and shows prolonged attenuation after deep brain stimulation. Experimental neurology. 215 [PubMed]
Butson CR, McIntyre CC. (2007). Differences among implanted pulse generator waveforms cause variations in the neural response to deep brain stimulation. Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology. 118 [PubMed]
Buzsáki G. (2004). Large-scale recording of neuronal ensembles. Nature neuroscience. 7 [PubMed]
Cagnan H et al. (2013). Phase dependent modulation of tremor amplitude in essential tremor through thalamic stimulation. Brain : a journal of neurology. 136 [PubMed]
Carron R, Chaillet A, Filipchuk A, Pasillas-Lépine W, Hammond C. (2013). Closing the loop of deep brain stimulation. Frontiers in systems neuroscience. 7 [PubMed]
Deniau JM, Degos B, Bosch C, Maurice N. (2010). Deep brain stimulation mechanisms: beyond the concept of local functional inhibition. The European journal of neuroscience. 32 [PubMed]
Dovzhenok A, Park C, Worth RM, Rubchinsky LL. (2013). Failure of delayed feedback deep brain stimulation for intermittent pathological synchronization in Parkinson's disease. PloS one. 8 [PubMed]
Eggermont JJ, Tass PA. (2015). Maladaptive neural synchrony in tinnitus: origin and restoration. Frontiers in neurology. 6 [PubMed]
Engel AK, Fries P, Singer W. (2001). Dynamic predictions: oscillations and synchrony in top-down processing. Nature reviews. Neuroscience. 2 [PubMed]
Ferraye MU et al. (2008). Effects of subthalamic nucleus stimulation and levodopa on freezing of gait in Parkinson disease. Neurology. 70 [PubMed]
Foutz TJ, McIntyre CC. (2010). Evaluation of novel stimulus waveforms for deep brain stimulation. Journal of neural engineering. 7 [PubMed]
Gerstner W, Kempter R, van Hemmen JL, Wagner H. (1996). A neuronal learning rule for sub-millisecond temporal coding. Nature. 383 [PubMed]
Gradinaru V, Mogri M, Thompson KR, Henderson JM, Deisseroth K. (2009). Optical deconstruction of parkinsonian neural circuitry. Science (New York, N.Y.). 324 [PubMed]
Grahn PJ et al. (2014). A neurochemical closed-loop controller for deep brain stimulation: toward individualized smart neuromodulation therapies. Frontiers in neuroscience. 8 [PubMed]
Graupe D, Basu I, Tuninetti D, Vannemreddy P, Slavin KV. (2010). Adaptively controlling deep brain stimulation in essential tremor patient via surface electromyography. Neurological research. 32 [PubMed]
Haken H. (1983). Advanced synergetics: Instability hierarchies of self-organizing systems and devices.
Hammond C, Bergman H, Brown P. (2007). Pathological synchronization in Parkinson's disease: networks, models and treatments. Trends in neurosciences. 30 [PubMed]
Harnack D et al. (2004). The effects of electrode material, charge density and stimulation duration on the safety of high-frequency stimulation of the subthalamic nucleus in rats. Journal of neuroscience methods. 138 [PubMed]
Hauptmann C, Tass PA. (2009). Cumulative and after-effects of short and weak coordinated reset stimulation: a modeling study. Journal of neural engineering. 6 [PubMed]
Holt AB, Wilson D, Shinn M, Moehlis J, Netoff TI. (2016). Phasic Burst Stimulation: A Closed-Loop Approach to Tuning Deep Brain Stimulation Parameters for Parkinson's Disease. PLoS computational biology. 12 [PubMed]
Hosain MK, Kouzani A, Tye S. (2014). Closed loop deep brain stimulation: an evolving technology. Australasian physical & engineering sciences in medicine. 37 [PubMed]
Johnson LA et al. (2016). Closed-Loop Deep Brain Stimulation Effects on Parkinsonian Motor Symptoms in a Non-Human Primate - Is Beta Enough? Brain stimulation. 9 [PubMed]
Johnson MD, Miocinovic S, McIntyre CC, Vitek JL. (2008). Mechanisms and targets of deep brain stimulation in movement disorders. Neurotherapeutics : the journal of the American Society for Experimental NeuroTherapeutics. 5 [PubMed]
Kiss IZ, Rusin CG, Kori H, Hudson JL. (2007). Engineering complex dynamical structures: sequential patterns and desynchronization. Science (New York, N.Y.). 316 [PubMed]
Kiss IZ, Zhai Y, Hudson JL. (2008). Control of complex dynamics with time-delayed feedback in populations of chemical oscillators: Desynchronization and clustering Ind Eng Chem Res. 47(10)
Kuncel AM, Grill WM. (2004). Selection of stimulus parameters for deep brain stimulation. Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology. 115 [PubMed]
Kuramoto Y. (1984). Chemical oscillations, waves, and turbulence.
Kurths J, Pikovsky A, Rosenblum M. (2001). Synchronization A Universal Concept In Nonlinear Sciences.
Kühn AA et al. (2008). High-frequency stimulation of the subthalamic nucleus suppresses oscillatory beta activity in patients with Parkinson's disease in parallel with improvement in motor performance. The Journal of neuroscience : the official journal of the Society for Neuroscience. 28 [PubMed]
Kühn AA, Volkmann J. (2017). Innovations in deep brain stimulation methodology. Movement disorders : official journal of the Movement Disorder Society. 32 [PubMed]
LILLY JC, HUGHES JR, ALVORD EC, GALKIN TW. (1955). Brief, noninjurious electric waveform for stimulation of the brain. Science (New York, N.Y.). 121 [PubMed]
Lindén H et al. (2011). Modeling the spatial reach of the LFP. Neuron. 72 [PubMed]
Little S et al. (2016). Bilateral adaptive deep brain stimulation is effective in Parkinson's disease. Journal of neurology, neurosurgery, and psychiatry. 87 [PubMed]
Little S, Brown P. (2012). What brain signals are suitable for feedback control of deep brain stimulation in Parkinson's disease? Annals of the New York Academy of Sciences. 1265 [PubMed]
Little S et al. (2013). Adaptive deep brain stimulation in advanced Parkinson disease. Annals of neurology. 74 [PubMed]
Llinás RR, Ribary U, Jeanmonod D, Kronberg E, Mitra PP. (1999). Thalamocortical dysrhythmia: A neurological and neuropsychiatric syndrome characterized by magnetoencephalography. Proceedings of the National Academy of Sciences of the United States of America. 96 [PubMed]
Luo M, Wu Y, Peng J. (2009). Washout filter aided mean field feedback desynchronization in an ensemble of globally coupled neural oscillators. Biological cybernetics. 101 [PubMed]
Majtanik M. (2007). Effekte von sensorischer Stimulation auf Hirnrhythmen: Modellbasierte Simulationen und magnetoenzephalographische (MEG) Studien. Heinrich-Heine-Universität Düsseldorf.
Markram H, Lübke J, Frotscher M, Sakmann B. (1997). Regulation of synaptic efficacy by coincidence of postsynaptic APs and EPSPs. Science (New York, N.Y.). 275 [PubMed]
Merrill DR, Bikson M, Jefferys JG. (2005). Electrical stimulation of excitable tissue: design of efficacious and safe protocols. Journal of neuroscience methods. 141 [PubMed]
Moehlis J, Wilson D. (2014). Optimal Chaotic Desynchronization for Neural Populations SIAM J Appl Dyn Syst. 13(1)
Montaseri G, Yazdanpanah MJ, Pikovsky A, Rosenblum M. (2013). Synchrony suppression in ensembles of coupled oscillators via adaptive vanishing feedback. Chaos (Woodbury, N.Y.). 23 [PubMed]
Moreau C et al. (2008). STN-DBS frequency effects on freezing of gait in advanced Parkinson disease. Neurology. 71 [PubMed]
Moro E et al. (2002). The impact on Parkinson's disease of electrical parameter settings in STN stimulation. Neurology. 59 [PubMed]
Moro E, Poon YY, Lozano AM, Saint-Cyr JA, Lang AE. (2006). Subthalamic nucleus stimulation: improvements in outcome with reprogramming. Archives of neurology. 63 [PubMed]
Nabi A, Mirzadeh M, Gibou F, Moehlis J. (2013). Minimum energy desynchronizing control for coupled neurons. Journal of computational neuroscience. 34 [PubMed]
Nini A, Feingold A, Slovin H, Bergman H. (1995). Neurons in the globus pallidus do not show correlated activity in the normal monkey, but phase-locked oscillations appear in the MPTP model of parkinsonism. Journal of neurophysiology. 74 [PubMed]
Parasuram H et al. (2016). Computational Modeling of Single Neuron Extracellular Electric Potentials and Network Local Field Potentials using LFPsim. Frontiers in computational neuroscience. 10 [PubMed]
Park C, Worth RM, Rubchinsky LL. (2011). Neural dynamics in parkinsonian brain: the boundary between synchronized and nonsynchronized dynamics. Physical review. E, Statistical, nonlinear, and soft matter physics. 83 [PubMed]
Pikovsky A, Rosenblum M, Tukhlina N, Cimponeriu L. (2006). Delayed Feedback Suppression of Collective Rhythmic Activity in a Neuronal Ensemble Int J Bifurcation And Chaos. 16
Pikovsky A, Ruffo S. (1999). Finite-size effects in a population of interacting oscillators Phys Rev E.. 59(2)
Popovych OV, Hauptmann C, Tass PA. (2005). Effective desynchronization by nonlinear delayed feedback. Physical review letters. 94 [PubMed]
Popovych OV, Hauptmann C, Tass PA. (2006). Control of neuronal synchrony by nonlinear delayed feedback. Biological cybernetics. 95 [PubMed]
Popovych OV, Tass PA. (2010). Synchronization control of interacting oscillatory ensembles by mixed nonlinear delayed feedback. Physical review. E, Statistical, nonlinear, and soft matter physics. 82 [PubMed]
Popovych OV, Tass PA. (2012). Desynchronizing electrical and sensory coordinated reset neuromodulation. Frontiers in human neuroscience. 6 [PubMed]
Popovych OV, Xenakis MN, Tass PA. (2015). The spacing principle for unlearning abnormal neuronal synchrony. PloS one. 10 [PubMed]
Priori A, Foffani G, Rossi L, Marceglia S. (2013). Adaptive deep brain stimulation (aDBS) controlled by local field potential oscillations. Experimental neurology. 245 [PubMed]
Quinn EJ et al. (2015). Beta oscillations in freely moving Parkinson's subjects are attenuated during deep brain stimulation. Movement disorders : official journal of the Movement Disorder Society. 30 [PubMed]
Ratas I, Pyragas K. (2014). Controlling synchrony in oscillatory networks via an act-and-wait algorithm. Physical review. E, Statistical, nonlinear, and soft matter physics. 90 [PubMed]
Rizzone M et al. (2001). Deep brain stimulation of the subthalamic nucleus in Parkinson's disease: effects of variation in stimulation parameters. Journal of neurology, neurosurgery, and psychiatry. 71 [PubMed]
Rosa M et al. (2015). Adaptive deep brain stimulation in a freely moving Parkinsonian patient. Movement disorders : official journal of the Movement Disorder Society. 30 [PubMed]
Rosenblum M, Pikovsky A. (2004). Delayed feedback control of collective synchrony: an approach to suppression of pathological brain rhythms. Physical review. E, Statistical, nonlinear, and soft matter physics. 70 [PubMed]
Rosenblum MG, Pikovsky AS. (2004). Controlling synchronization in an ensemble of globally coupled oscillators. Physical review letters. 92 [PubMed]
Rosin B et al. (2011). Closed-loop deep brain stimulation is superior in ameliorating parkinsonism. Neuron. 72 [PubMed]
Rubin JE, Terman D. (2004). High frequency stimulation of the subthalamic nucleus eliminates pathological thalamic rhythmicity in a computational model. Journal of computational neuroscience. 16 [PubMed]
Schnitzler A, Münks C, Butz M, Timmermann L, Gross J. (2009). Synchronized brain network associated with essential tremor as revealed by magnetoencephalography. Movement disorders : official journal of the Movement Disorder Society. 24 [PubMed]
Singer W. (1993). Synchronization of cortical activity and its putative role in information processing and learning. Annual review of physiology. 55 [PubMed]
Strogatz SH, Yeung MKS. (1999). Time delay in the Kuramoto model of coupled oscillators Phys Rev Lett.. 82
Tass P. (1999). Phase Resetting in Medicine and Biology.
Tass PA. (2000). Stochastic phase resetting: A theory for deep brain stimulation Prog Theor Phys Suppl.. 139
Tass PA. (2001). Effective desynchronization by means of double-pulse phase resetting Europhys Lett.. 53(1)
Tass PA. (2003). A model of desynchronizing deep brain stimulation with a demand-controlled coordinated reset of neural subpopulations. Biological cybernetics. 89 [PubMed]
Tass PA, Adamchic I, Freund HJ, von Stackelberg T, Hauptmann C. (2012). Counteracting tinnitus by acoustic coordinated reset neuromodulation. Restorative neurology and neuroscience. 30 [PubMed]
Tass PA, Majtanik M. (2006). Long-term anti-kindling effects of desynchronizing brain stimulation: a theoretical study. Biological cybernetics. 94 [PubMed]
Tass PA, Popovych OV. (2012). Unlearning tinnitus-related cerebral synchrony with acoustic coordinated reset stimulation: theoretical concept and modelling. Biological cybernetics. 106 [PubMed]
Tass PA, Popovych OV, Pyragas K. (2007). Controlling Synchrony in Oscillatory Networks with a Separate Stimulation-Registration Setup Europhys Lett.. 80
Tass PA et al. (2012). Coordinated reset has sustained aftereffects in Parkinsonian monkeys. Annals of neurology. 72 [PubMed]
Tass PA, Silchenko AN, Hauptmann C, Barnikol UB, Speckmann EJ. (2009). Long-lasting desynchronization in rat hippocampal slice induced by coordinated reset stimulation. Physical review. E, Statistical, nonlinear, and soft matter physics. 80 [PubMed]
Temperli P et al. (2003). How do parkinsonian signs return after discontinuation of subthalamic DBS? Neurology. 60 [PubMed]
Terman D, Rubin JE, Yew AC, Wilson CJ. (2002). Activity patterns in a model for the subthalamopallidal network of the basal ganglia. The Journal of neuroscience : the official journal of the Society for Neuroscience. 22 [PubMed]
Tukhlina N, Rosenblum M, Pikovsky A, Kurths J. (2007). Feedback suppression of neural synchrony by vanishing stimulation. Physical review. E, Statistical, nonlinear, and soft matter physics. 75 [PubMed]
Volkmann J, Herzog J, Kopper F, Deuschl G. (2002). Introduction to the programming of deep brain stimulators. Movement disorders : official journal of the Movement Disorder Society. 17 Suppl 3 [PubMed]
Wang DD et al. (2016). Subthalamic local field potentials in Parkinson's disease and isolated dystonia: An evaluation of potential biomarkers. Neurobiology of disease. 89 [PubMed]
Wang J et al. (2016). Coordinated Reset Deep Brain Stimulation of Subthalamic Nucleus Produces Long-Lasting, Dose-Dependent Motor Improvements in the 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine Non-Human Primate Model of Parkinsonism. Brain stimulation. 9 [PubMed]
Weisz N, Moratti S, Meinzer M, Dohrmann K, Elbert T. (2005). Tinnitus perception and distress is related to abnormal spontaneous brain activity as measured by magnetoencephalography. PLoS medicine. 2 [PubMed]
Wilson CJ, Beverlin B, Netoff T. (2011). Chaotic desynchronization as the therapeutic mechanism of deep brain stimulation. Frontiers in systems neuroscience. 5 [PubMed]
Winfree AT. (1980). The geometry of biological time..
Wong RK, Traub RD, Miles R. (1986). Cellular basis of neuronal synchrony in epilepsy. Advances in neurology. 44 [PubMed]
Wongsarnpigoon A, Grill WM. (2010). Energy-efficient waveform shapes for neural stimulation revealed with a genetic algorithm. Journal of neural engineering. 7 [PubMed]
Xie T, Kang UJ, Warnke P. (2012). Effect of stimulation frequency on immediate freezing of gait in newly activated STN DBS in Parkinson's disease. Journal of neurology, neurosurgery, and psychiatry. 83 [PubMed]
Yamamoto T et al. (2013). On-demand control system for deep brain stimulation for treatment of intention tremor. Neuromodulation : journal of the International Neuromodulation Society. 16 [PubMed]
Yanagisawa T et al. (2012). Regulation of motor representation by phase-amplitude coupling in the sensorimotor cortex. The Journal of neuroscience : the official journal of the Society for Neuroscience. 32 [PubMed]
Yang AI, Vanegas N, Lungu C, Zaghloul KA. (2014). Beta-coupled high-frequency activity and beta-locked neuronal spiking in the subthalamic nucleus of Parkinson's disease. The Journal of neuroscience : the official journal of the Society for Neuroscience. 34 [PubMed]
van Nuenen BF et al. (2008). Postoperative gait deterioration after bilateral subthalamic nucleus stimulation in Parkinson's disease. Movement disorders : official journal of the Movement Disorder Society. 23 [PubMed]
van Wijk BC et al. (2016). Subthalamic nucleus phase-amplitude coupling correlates with motor impairment in Parkinson's disease. Clinical neurophysiology : official journal of the International Federation of Clinical Neurophysiology. 127 [PubMed]
Özkurt TE et al. (2011). High frequency oscillations in the subthalamic nucleus: a neurophysiological marker of the motor state in Parkinson's disease. Experimental neurology. 229 [PubMed]