1.
The expanding universe of disorders of the basal ganglia.
by Obeso, Jose A
August 9, 2014
Lancet (London, England), Vol.384(9942), pp.523-531
2014
2.
Indirection and symbol-like processing in the prefrontal cortex and basal ganglia.
by Kriete, Trenton
Proceedings of the National Academy of Sciences of the United States of America, October 8, 2013, Vol.110(41), pp.16390-16395
3.
GABA/glutamate co-release controls habenula output and is modified by antidepressant treatment
by Shabel, Steven
Science, September 19, 2014, Vol.345(6203), pp.1494-1498
4.
A basal ganglia circuit for evaluating action outcomes.
by Stephenson-Jones, Marcus
Nature, November 10, 2016, Vol.539(7628), pp.289-293
5.
Opponent and bidirectional control of movement velocity in the basal ganglia.
by Yttri, Eric A
Nature, May 19, 2016, Vol.533(7603), pp.402-406
6.
The basal ganglia communicate with the cerebellum.
by Bostan, Andreea C
Proceedings of the National Academy of Sciences of the United States of America, May 4, 2010, Vol.107(18), pp.8452-8456
7.
Regulation of parkinsonian motor behaviours by optogenetic control of basal ganglia circuitry.
by Kravitz, Alexxai V
Nature, July 29, 2010, Vol.466(7306), pp.622-626
8.
Network architecture of the cerebral nuclei (basal ganglia) association and commissural connectome.
by Swanson, Larry W
Proceedings of the National Academy of Sciences of the United States of America, October 4, 2016, Vol.113(40), pp.E5972-E5981
9.
Desynchronization of slow oscillations in the basal ganglia during natural sleep
by Mizrahi-Kliger, Aviv D
Proceedings of the National Academy of Sciences of the United States of America, 01 May 2018, Vol.115(18), pp.E4274-E4283
10.
A direct gabaergic output from the basal ganglia to frontal cortex.(RESEARCH: LETTER)(Report)
by Saunders, Arpiar
Nature, May 7, 2015, Vol.521(7550), p.85(20)
11.
Midbrain circuits that set locomotor speed and gait selection
by Caggiano, V
Nature, 2018, Vol.553(7689), p.455-460
12.
Basal ganglia, thalamus and neocortical atrophy predicting slowed cognitive processing in multiple sclerosis
by Batista, Sonia
Journal of Neurology, 2012, Vol.259(1), pp.139-146
13.
Basal ganglia hyperechogenicity does not distinguish between patients with primary dystonia and healthy individuals
by Hagenah, Johann
Journal of Neurology, 2011, Vol.258(4), pp.590-595
14.
Evidence for a causal inverse model in an avian cortico-basal ganglia circuit.
by Giret, Nicolas
Proceedings of the National Academy of Sciences of the United States of America, April 22, 2014, Vol.111(16), pp.6063-6068
15.
G09 Structural connectivity-based topography of the basal ganglia is altered in premanifest and early manifest Huntington's disease
by Novak, M
Journal of Neurology, Neurosurgery & Psychiatry September 2012, Vol.83(Suppl 1), p.A29
16.
Association Between Invisible Basal Ganglia and ZNF335 Mutations: A Case Report.
by Sato, Rieko
Pediatrics, September 2016, Vol.138(3)
17.
Two appendages homologous between basal bodies and centrioles are formed using distinct Odf2 domains.(Report)(Report)(Author abstract)
by Tateishi, Kazuhiro
The Journal of Cell Biology, Nov 11, 2013, Vol.203(3), p.417(9)
18.
Atypical nucleus accumbens morphology in psychopathy: Another limbic piece in the puzzle
by Boccardi, Marina
International Journal of Law and Psychiatry, March 2013, Vol.36(2), pp.157-167
19.
Quantitative assessment of motor abnormalities in untreated patients with major depressive disorder
by Lohr, James B
Journal of Affective Disorders, 20 March 2013, Vol.146(1), pp.84-90
20.
Exercise Mode Moderates the Relationship Between Mobility and Basal Ganglia Volume in Healthy Older Adults
by Nagamatsu, Lindsay S.
Journal of the American Geriatrics Society, January 2016, Vol.64(1), pp.102-108
