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Mallet N, Pogosyan A, Márton LF, Bolam JP, Brown P, Magill PJ (2008) Parkinsonian beta oscillations in the external globus pallidus and their relationship with subthalamic nucleus activity. J Neurosci 28:14245-58 [PubMed]

References and models cited by this paper

References and models that cite this paper

Corbit VL, Whalen TC, Zitelli KT, Crilly SY, Rubin JE, Gittis AH (2016) Pallidostriatal Projections Promote ß Oscillations in a Dopamine-Depleted Biophysical Network Model. J Neurosci 36:5556-71 [Journal] [PubMed]
   Pallidostriatal projections promote beta oscillations (Corbit, Whalen, et al 2016) [Model]
Damodaran S, Evans RC, Blackwell KT (2014) Synchronized firing of fast-spiking interneurons is critical to maintain balanced firing between direct and indirect pathway neurons of the striatum. J Neurophysiol 111:836-48 [Journal] [PubMed]
   Synchronicity of fast-spiking interneurons balances medium-spiny neurons (Damodaran et al. 2014) [Model]
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:e58264 [Journal] [PubMed]
   Failure of Deep Brain Stimulation in a basal ganglia neuronal network model (Dovzhenok et al. 2013) [Model]
Edgerton JR, Hanson JE, Günay C, Jaeger D (2010) Dendritic sodium channels regulate network integration in globus pallidus neurons: a modeling study. J Neurosci 30:15146-59 [Journal] [PubMed]
   Globus pallidus neuron models with differing dendritic Na channel expression (Edgerton et al., 2010) [Model]
Edgerton JR, Jaeger D (2011) Dendritic sodium channels promote active decorrelation and reduce phase locking to parkinsonian input oscillations in model globus pallidus neurons. J Neurosci 31:10919-36 [Journal] [PubMed]
   Globus pallidus neuron models with differing dendritic Na channel expression (Edgerton et al., 2010) [Model]
Kumaravelu K, Brocker DT, Grill WM (2016) A biophysical model of the cortex-basal ganglia-thalamus network in the 6-OHDA lesioned rat model of Parkinson's disease. J Comput Neurosci 40:207-29 [Journal] [PubMed]
   Cortex-Basal Ganglia-Thalamus network model (Kumaravelu et al. 2016) [Model]
Lindroos R, Dorst MC, Du K, Filipovic M, Keller D, Ketzef M, Kozlov AK, Kumar A, Lindahl M, Nair AG, Pérez-Fernández J, Grillner S, Silberberg G, Hellgren Kotaleski J (2018) Basal Ganglia Neuromodulation Over Multiple Temporal and Structural Scales-Simulations of Direct Pathway MSNs Investigate the Fast Onset of Dopaminergic Effects and Predict the Role of Kv4.2. Front Neural Circuits 12:3 [Journal] [PubMed]
   Striatal D1R medium spiny neuron, including a subcellular DA cascade (Lindroos et al 2018) [Model]
Pavlides A, Hogan SJ, Bogacz R (2015) Computational Models Describing Possible Mechanisms for Generation of Excessive Beta Oscillations in Parkinson's Disease. PLoS Comput Biol 11:e1004609 [Journal] [PubMed]
   Excessive beta oscillations in Parkinson's disease (Pavlides et al. 2015) [Model]
Schultheiss NW, Edgerton JR, Jaeger D (2010) Phase response curve analysis of a full morphological globus pallidus neuron model reveals distinct perisomatic and dendritic modes of synaptic integration. J Neurosci 30:2767-82 [Journal] [PubMed]
   GP Neuron, somatic and dendritic phase response curves (Schultheiss et al. 2011) [Model]
So RQ, Kent AR, Grill WM (2012) Relative contributions of local cell and passing fiber activation and silencing to changes in thalamic fidelity during deep brain stimulation and lesioning: a computational modeling study. J Comput Neurosci 32:499-519 [Journal] [PubMed]
   Basal ganglia-thalamic network model for deep brain stimulation (So et al. 2011) [Model]
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