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Subject index of volume 1
Accommodation, 135
Acutely isolated cells, 31
Adrenergic, 95
After hyperpolarization, 135
4-Aminopyridine, 169
AMPA receptor subunits, 349
Arousal, 39
Backpropagation, 105
Burst firing, 237
Burst, 3
Ca2+ channel blocker, 31
Ca2+ domain, 31
Calcium/calmodulin-dependent
protein kinase, 349
Calcium-activated potassium-
current, 157
Calcium-binding proteins, 117,
317
Calcium-binding, 213
C2-cassette, 303
Cell migration, 283
Central lateral nucleus, 71
Cerebral cortex, 197
Circadian rhythm, 197
Cortical stimulation, 15
Corticothalamic re-entry, 237
Corticothalamic synapses, 187
Corticothalamic, 3
Deep-brain stimulation, 255, 371
Dendritic clusters, 39
Depression, 3
Desynchronization, 53
Dopamine, 379
Dorsal thalamic nuclei, 283
Dynamics, 135
Edge effect, 237
Electrical stimulation, 255, 269,
387
Electrophysiology, 157, 289, 379
Epileptiform discharges, 169
Epithalamus, 283
Extrastriate cortex, 317
Facilitation, 3
Ferrets, 283
Fields of Forel, 81
Fluorescent tracer, 169
GABA, 117, 379
GABAA receptor subunits, 349
GABAergic cells, 187
Gamma band frequencies, 3
Ganglionic eminence, 283
Geometric ratio, 105
Globus pallidus, 255
GluR3 and GluR4 subunits, 15
Glutamic acid decarboxylase,
349
Haloperidol, 379
H-current, 95
High frequency chronic stimula-
tion, 203
Hyperpolarization-rebound
sequence, 331
Hypothalamus, 197
Immunocytochemistry, 31
Immuno-electron microscopy, 15,
187
Intracellular recordings, 331
Intrinsic properties, 3, 237
Intrinsic, 53, 331
Lateral geniculate nucleus, 135
Limbic system, 197
Limbic thalamus, 117
Low-threshold calcium spike
bursts, 71, 81, 245
Low-threshold spike, 53
Medial thalamotomy, 71, 245
MEG, 237
Monkeys, 283
Motor thalamus, 81
Mouse, 371
Movement disorders, 269
Multi-compartment model, 105
Neocortex, 331
Neural prosthesis, 269
Neuromodulation, 387
NF-L, 303
NMDA receptor subunits, 349
NMDA, 3
NR1, 303
Oscillations, 39
Pacemaking, 95
Pain pathways, 213
Pallidothalamic tractotomy, 245
Parkinson’s disease, 341
Patch-clamp, 31, 157
Persistent rhythms in cortical
neurons, 225
Pharmacology, 157
Physiopathology of seizures, 387
Positive symptoms, 245
Postsynaptic potentials, 39
Primates, 213, 317
Proteins, 213
PSD-95, 303
Quantal analysis, 15
Rebound, 331
Recruiting responses, 387
Refractory properties, 269
Relay cells, 187
Repetitive stimulation, 331
Reticular nucleus, 187
SAP102, 303
Seizures, 117, 225
Sensorimotor integration, 289
Sleep and epilepsy, 387
Sleep oscillations, 225
Sleep, 39
Somatosensory cortex, 169
Somatosensory neocortex, 289
Spindles, 53, 169
Stereotaxy, 71, 81
Strength-duration properties, 269
Striatum, 341
Subthalamic nucleus, 255, 341
Sylvian fissure, 289
Synaptic transmission failure,
371
Synaptic, 53, 331
Thalamic nuclei, 349
Thalamic reticular nucleus, 117
Thalamocorticalconnections, 317
Thalamocortical slices, 371
Thalamostriatal pathway, 341
Thalamus, 157, 197, 213, 255,
331
Time and frequency domain ana-
lysis, 203
Ventral posterior nucleus, 187,
213
Ventral tegmental area, 379
Ventral thalamus, 283
Vision, 135
Visual thalamus, 317
Voltage-sensitive dye, 371
Whole-cell recording, 15, 187
ZD7288, 95
Thalamus & Related Systems 1 (2002) 405
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