Brian Hyland
Brian Hyland
Professor of Physiology, University of Otago
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Cited by
Cited by
A cellular mechanism of reward-related learning
JNJ Reynolds, BI Hyland, JR Wickens
Nature 413 (6851), 67-70, 2001
Firing modes of midbrain dopamine cells in the freely moving rat
BI Hyland, JNJ Reynolds, J Hay, CG Perk, R Miller
Neuroscience 114 (2), 475-492, 2002
Dopamine cells respond to predicted events during classical conditioning: evidence for eligibility traces in the reward-learning network
WX Pan, R Schmidt, JR Wickens, BI Hyland
Journal of Neuroscience 25 (26), 6235-6242, 2005
Neural mechanisms of reward-related motor learning
JR Wickens, JNJ Reynolds, BI Hyland
Current opinion in neurobiology 13 (6), 685-690, 2003
Pedunculopontine tegmental nucleus controls conditioned responses of midbrain dopamine neurons in behaving rats
WX Pan, BI Hyland
Journal of Neuroscience 25 (19), 4725-4732, 2005
Striatal contributions to reward and decision making: making sense of regional variations in a reiterated processing matrix
JR Wickens, CS Budd, BI Hyland, GW Arbuthnott
Annals of the New York Academy of Sciences 1104 (1), 192-212, 2007
Comparison of neural activity in the supplementary motor area and in the primary motor cortex in monkeys.
DF Chen, B Hyland, V Maier, A Palmeri, M Wiesendanger
Somatosensory & Motor Research 8 (1), 27-44, 1991
Spatiotemporal activity patterns of rat cortical neurons predict responses in a conditioned task
AEP Villa, IV Tetko, B Hyland, A Najem
Proceedings of the National Academy of Sciences 96 (3), 1106-1111, 1999
Motor thalamus integration of cortical, cerebellar and basal ganglia information: implications for normal and parkinsonian conditions
C Bosch-Bouju, BI Hyland, LC Parr-Brownlie
Frontiers in computational neuroscience 7, 163, 2013
Cortical cell assemblies: a possible mechanism for motor programs
J Wickens, B Hyland, G Anson
Journal of Motor Behavior 26 (2), 66-82, 1994
Neural activity of supplementary and primary motor areas in monkeys and its relation to bimanual and unimanual movement sequences
O Kazennikov, B Hyland, M Corboz, A Babalian, EM Rouiller, ...
Neuroscience 89 (3), 661-674, 1999
Tripartite mechanism of extinction suggested by dopamine neuron activity and temporal difference model
WX Pan, R Schmidt, JR Wickens, BI Hyland
Journal of Neuroscience 28 (39), 9619-9631, 2008
Modulation of an afterhyperpolarization by the substantia nigra induces pauses in the tonic firing of striatal cholinergic interneurons
JNJ Reynolds, BI Hyland, JR Wickens
Journal of Neuroscience 24 (44), 9870-9877, 2004
Cortical effects of subthalamic stimulation correlate with behavioral recovery from dopamine antagonist induced akinesia
C Dejean, B Hyland, G Arbuthnott
Cerebral cortex 19 (5), 1055-1063, 2009
Neural activity related to reaching and grasping in rostral and caudal regions of rat motor cortex
B Hyland
Behavioural brain research 94 (2), 255-269, 1998
Bradykinesia induced by dopamine D2 receptor blockade is associated with reduced motor cortex activity in the rat
LC Parr-Brownlie, BI Hyland
Journal of Neuroscience 25 (24), 5700-5709, 2005
Temporal structure of a bimanual goal‐directed movement sequence in monkeys
O Kazennikov, U Wicki, M Corboz, B Hyland, A Palmeri, EM Rouiller, ...
European Journal of Neuroscience 6 (2), 203-210, 1994
Effects of lesions in the mesial frontal cortex on bimanual co-ordination in monkeys
O Kazennikov, B Hyland, U Wicki, S Perrig, EM Rouiller, M Wiesendanger
Neuroscience 85 (3), 703-716, 1998
Neuronal activity in rat red nucleus during forelimb reach-to-grasp movements
H Jarratt, B Hyland
Neuroscience 88 (2), 629-642, 1999
Input and output organization of the supplementary motor area
M Wiesendanger, H Hummelsheim, M Bianchetti, DF Chen, B Hyland, ...
Ciba Found Symp 132, 40-62, 1987
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