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201. Cerebellar learning properties are modulated by the CRF receptor in granular cells.
Ezra-Nevo G, Prestori F, Locatelli F, Soda T, Ten Brinke MM, Engel M, Boele HJ, Botta L, Leshkowitz D, Ramot A, Tsoory M, Biton IE, Deussing J, D'Angelo E, De Zeeuw CI, Chen A
in The Journal of neuroscience : the official journal of the Society for Neuroscience 2018
202. Cerebellar Modules and Their Role as Operational Cerebellar Processing Units.
Apps R, Hawkes R, Aoki S, Bengtsson F, Brown AM, Chen G, Ebner TJ, Isope P, Jörntell H, Lackey EP, Lawrenson C, Lumb B, Schonewille M, Sillitoe RV, Spaeth L, Sugihara I, Valera A, Voogd J, Wylie DR, Ruigrok TJH
in Cerebellum (London, England) 2018
203. Cerebellar modules operate at different frequencies
Zhou, H., Lin, Z., Voges, K., Ju, C., Gao, Z., Bosman, L. W. J., Ruigrok, T. J., Hoebeek, F. E., De Zeeuw, C. I. and Schonewille, M
in eLife 2014
204. Cerebellar molecular layer interneurons - computational properties and roles in learning
205. Cerebellar motor learning deficits in medicated and medication-free men with recent-onset schizophrenia.
in Journal of psychiatry & neuroscience : JPN 2014
206. Cerebellar nuclei and the inferior olivary nuclei: Organizations and connections. In M. Manto, J. Gruol, N. Schmahmann, N. Koibuchi & F. Rossi (Eds.), Handbook of the cerebellum and cerebellar disorders
207. Cerebellar nuclei: Associative motor learning in zebrafish.
208. Cerebellar output controls generalized spike-and-wave discharge occurrence.
Kros L, Eelkman Rooda OH, Spanke JK, Alva P, van Dongen MN, Karapatis A, Tolner EA, Strydis C, Davey N, Winkelman BH, Negrello M, Serdijn WA, Steuber V, van den Maagdenberg AM, De Zeeuw CI, Hoebeek FE
in Annals of neurology 2015
209. Cerebellar plasticity and associative memories are controlled by perineuronal nets.
Carulli D, Broersen R, de Winter F, Muir EM, Mešković M, de Waal M, de Vries S, Boele HJ, Canto CB, De Zeeuw CI, Verhaagen J
in Proceedings of the National Academy of Sciences of the United States of America 2020
210. Cerebellar potentiation and learning a whisker-based object localization task with a time response window.
Rahmati N, Owens CB, Bosman LW, Spanke JK, Lindeman S, Gong W, Potters JW, Romano V, Voges K, Moscato L, Koekkoek SK, Negrello M, De Zeeuw CI
in The Journal of neuroscience : the official journal of the Society for Neuroscience 2014
211. Cerebellar Purkinje cells can differentially modulate coherence between sensory and motor cortex depending on region and behavior.
in Proceedings of the National Academy of Sciences of the United States of America 2021
212. Cerebellar tDCS does not affect performance in the N-back task.
in Journal of clinical and experimental neuropsychology 2015
213. Cerebellar tDCS Does Not Enhance Performance in an Implicit Categorization Learning Task.
214. Cerebellar tDCS does not improve performance in probabilistic classification learning.
Seyed Majidi N, Verhage MC, Donchin O, Holland P, Frens MA, van der Geest JN
in Experimental brain research 2016
215. Cerebellar transcranial direct current stimulation effects on saccade adaptation.
Avila E, van der Geest JN, Kengne Kamga S, Verhage MC, Donchin O, Frens MA
in Neural plasticity 2015
216. Cerebellar transcranial direct current stimulation interacts with BDNF Val66Met in motor learning.
van der Vliet R, Jonker ZD, Louwen SC, Heuvelman M, de Vreede L, Ribbers GM, De Zeeuw CI, Donchin O, Selles RW, van der Geest JN, Frens MA
in Brain stimulation 2018
217. Cerebellum and cerebellar connections. The Rat Nervous System.
218. Cerebellum and Precerebellar Nuclei, In The Human Nervous System, edited by JK Mai, G Paxinos and eds
219. Cerebellum Lecture: the Cerebellar Nuclei-Core of the Cerebellum.
Kebschull JM, Casoni F, Consalez GG, Goldowitz D, Hawkes R, Ruigrok TJH, Schilling K, Wingate R, Wu J, Yeung J, Uusisaari MY
in Cerebellum (London, England) 2023
220. Cerebellum.
221. Cerebellum: What is in a Name? Historical Origins and First Use of This Anatomical Term.
222. Cerebral Visual Impairment: which perceptive visual dysfunctions can be expected in children with brain damage? A systematic review.
223. Cervico-ocular Reflex Is Increased in People With Nonspecific Neck Pain.
in Physical therapy 2016
224. Changes in Timing and kinematics of goal directed eye-hand movements in early-stage Parkinson's disease
Muilwijk, D., Verheij, S., Pel, J. J. M., Boon, A. J. W., & Van Der Steen, J.
in Translational Neurodegeneration 2013
225. Changing patterns in emergency involuntary admissions in the Netherlands in the period 2000-2004.
Mulder CL, Uitenbroek D, Broer J, Lendemeijer B, van Veldhuizen JR, van Tilburg W, Lelliott P, Wierdsma AI
in International journal of law and psychiatry 2008
226. Characterization of the mouse neuroinvasiveness of selected European strains of West Nile virus
Lim, S. M., Koraka, P., van Boheemen, S., Roose, J. M., Jaarsma, D., van de Vijver, D. A., Osterhaus, A. D., & Martina, B. E
in PLoS ONE 2013
227. Chloride Homeostasis in Neurons With Special Emphasis on the Olivocerebellar System: Differential Roles for Transporters and Channels.
228. Chronic joint pain in the lower body is associated with gait differences independent from radiographic osteoarthritis.
de Kruijf M, Verlinden VJ, Huygen FJ, Hofman A, van der Geest JN, Uitterlinden AG, Bierma-Zeinstra SM, Ikram MA, van Meurs JB
in Gait & posture 2015
229. Circuit Investigations With Open-Source Miniaturized Microscopes: Past, Present and Future.
230. Circulating cytotoxic T cells and natural killer cells as potential predictors for antidepressant response in melancholic depression. Restoration of T regulatory cell populations after antidepressant therapy.
Grosse L, Carvalho LA, Birkenhager TK, Hoogendijk WJ, Kushner SA, Drexhage HA, Bergink V
in Psychopharmacology 2015
231. Circulating cytotoxic T cells and natural killer cells as potential predictors for antidepressant response in melancholic depression: Restoration of T regulatory cell populations after antidepressant therapy.
Grosse L, Carvalho LA, Birkenhager TK, Hoogendijk WJ, Kushner SA, Drexhage HA, Bergink V
in Psychopharmacology 2016
232. Classification of Mild Cognitive Impairment and Alzheimer
Koppelmans V, Ruitenberg MFL, Schaefer SY, King JB, Jacobo JM, Silvester BP, Mejia AF, van der Geest J, Hoffman JM, Tasdizen T, Duff K
in Neuro-degenerative diseases 2024
233. Climbing Fiber Burst Size and Olivary Sub-Threshold Oscillations in a Network Setting
in PLoS Computational Biology 2012
234. Climbing fiber input shapes reciprocity of purkinje cell firing
Badura, A., Schonewille, M., Voges, K., Galliano, E., Renier, N., Gao, Z., Witter, L., Hoebeek, F., Chédotal, A., & DeZeeuw, C. I.
in Neuron 2013
235. Climbing fiber input shapes reciprocity of Purkinje cell firing.
Badura A, Schonewille M, Voges K, Galliano E, Renier N, Gao Z, Witter L, Hoebeek FE, Chédotal A, De Zeeuw CI
in Neuron 2013
236. Clinical aspects of a large group of adults with Angelman syndrome.
den Besten I, de Jong RF, Geerts-Haages A, Bruggenwirth HT, Koopmans M, Brooks A, Elgersma Y, Festen DAM, Valstar MJ
in American journal of medical genetics. Part A 2020
237. Clinical, electrophysiological, and cutaneous innervation changes in patients with bortezomib-induced peripheral neuropathy reveal insight into mechanisms of neuropathic pain.
Bechakra M, Nieuwenhoff MD, van Rosmalen J, Groeneveld GJ, Scheltens-de Boer M, Sonneveld P, van Doorn PA, de Zeeuw CI, Jongen JL
in Molecular pain 2018
238. Clinically applied CT arthrography to measure the sulphated glycosaminoglycan content of cartilage
Siebelt M, van Tiel J, Waarsing JH, Piscaer TM, van Straten M, Booij R, Dijkshoorn ML, Kleinrensink GJ, Verhaar JA, Krestin GP, Weinans H, Oei EH
in Osteoarthritis Cartilage 2011
239. Cockayne syndrome group B (Csb) and group a (Csa) deficiencies predispose to hearing loss and cochlear hair cell degeneration in mice.
Nagtegaal AP, Rainey RN, van der Pluijm I, Brandt RM, van der Horst GT, Borst JG, Segil N
in The Journal of neuroscience : the official journal of the Society for Neuroscience 2015
240. Cockayne syndrome pathogenesis: lessons from mouse models
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