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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