SUBJECT INDEX, VOLUMES I — III 



!9 8 ; 



operant conditioning and, 1543 

 neocortical function and, 1542 

 neurophysiological developments and, 



■532- "543 

 Papez circle, 1536 

 peripheral phenomena in, 1531 

 psychological considerations, 1 529- 



'531 



reticular formation and, 1532 



self-stimulation and, 1545 



thalamic lesions and, 1535 

 Encephale isole 



arousal in, 1288 

 Encephalitis lethargica 



neuropathology, 1556 

 Emephalohydrocrinie 



definition, 1040 

 Encephalomalacia 



nutritional 



description, 1903 

 F.ndocochlear potential 



characteristics, 575 



source of, 576 



reciprocal relation to central nervous 

 system, 1015 

 Endocrines 



see also Individual glands and hormones 



body temperature control and, 1189 



central nervous system development 

 and, 1027 



central nervous system metabolism 

 and, 1859 



pain and, 498 



posture and, 1076 



sex behavior and, 1227-1228 

 Endolymph 



composition, 574 



flow in semicircular canal, 553 



movement due to caloric stimulation, 



556 

 Endolymphatic potential: see Endo- 



cochlear potential 

 End-plate potentials, 202-209 



calcium and, 208 



characteristics, 203 



conditioning nerve impulses and, 208 



curare and, 203 



definition, 149, 202 



in absence of action potential, joj 



in crustacean muscle, 243 



inhibition and, 244 



magnesium and, 208 



mammalian muscle liber, 206 



miniature, 207 



uncurarized muscle and, 204 

 Energy-rich phosphate compounds 



CNS metabolism and, 1851 

 Enteric plexuses 



local reflexes and, 992 

 Enteroreceptors 



posture and, 107 1 

 Entorhinal cortex : see Pyriform cortex 



Enzootic hysteria: see Canine hysteria 

 Enzymes 



distribution in brain cells, 1808 

 in cell structures, 1816 

 Epilepsies, partial 



anatomical lesions, 353 

 characterization, 330 

 diffuse, 359 

 discharges 



character of, 357 



diffuse, 359 



erratic, 353 



localized EEG in, 357 



mode of propagation of, 356 



neuronal, 355 



requirements for propagation of, 356 

 distinction of two varieties, 357 

 EEG changes in, 331 

 etiology, 331 

 experimental, 348 

 generalized convulsions, 357 

 localized, 359 

 physiopathogenesis, 354 

 physiopathology, 347 

 predisposing lactors, 355 

 rhinencephalie, 350 

 secondary generalization, j-,j 

 subeortie.il origin, (">-' 

 Epilepsy, 329-360 



see also Anoxia, convulsions; Audi- 

 ogenic seizures; Convulsions, gen- 

 eralized; Pentylenetetrazol seizures; 



Strychnine convulsions 

 clinical picture, 329 

 cortical lesions in, 349 

 degenerative 



reticular formation and, 342 

 EEG changes, 329 

 focus 



behavior of allied centers and, 356 

 functional, 331 



masticatory, seizures in, 1 165 

 organic, 331 

 postdischarges 



characteristics, 349 



cortical, propagation, 350 



transmission, 353 



zones for, 349 

 psychomotor 



amygdala and, 1413 



characterization, 330 



foci in Papez circle, 1 734 



hippocampal seizures and, 1 387 



interictal behavior, 1414 



suppression of electrical activity, 



■3 6 4 

 temporal lobe seizures, 1357 

 Epilepsy, grand mal 

 characterization, 330 

 cortical theory, 333 

 eclectic theory, 333 



electrical discharge, 338 



causes of, 342 



mechanism of, 334 

 EEG in, 1582 



experimental production, 332 

 pentylenetetrazol seizures and, 341 

 physiopathology, 331 

 reticular neurons in, 342 

 subcortical theory, 332 

 Epilepsy, partial: see Epilepsies, partial 

 Epilepsy, petit mal 



absence type, 336, 346 



EEG in, 337 

 characterization, 330 

 EEG, human, 1582, 1584 

 myoclonic, 335, 346 



experimental production, 336 

 thalamic reticular formation and, 



1308-1319 

 thalamus and, 337 

 Epinephrine 



see also Adrenergic transmittn , 



Catecholamines; Dopamine; Isopro- 



p\ I norepinephrine, .Norepinephrine, 



I ransmitter substances 

 acetylcholine and, 210 

 as transmitter substance, 140, 179, 



218, 229, 888, 989 



in coronary vessels, I I 33-1 '37 

 .is vasoconstrictor, 1748 

 CNS metabolism and, i860 

 1 erebral blood Mow and, 1757 

 differentiation from norepinephrine, 



218 

 in skeletal muscle \essrls, 1133, 1 136 

 intraocular pressure and, 1 782 

 release in hypoglycemia, 226 

 reticular formation and, 1289 

 stimulation of reticular formation, [076 

 l.phaptic transmission, 190-194 

 see also Synaptic transmission; Trans- 

 mission 

 as model of synaptic transmission, 190 

 compared to synaptic, [49 

 evolution, 194 

 excitation, 190 

 nerve cords, 1 92 

 polarized, 192 

 unpolarized junction, 102 

 Epicritic system 

 criticism of, 475 

 sensory mechanism, 391 

 Equilibrium 



see also Vestibular mechanism 

 Equilibrium 



control in invertebrates, 382 

 senses affecting, 549 

 I.rrismatic motility 

 definition, 903 

 description, 922 

 model of, 904 

 statokinetic regulation, 902 



Volume I: /'ages 1-/80 Volume II: pages 781-1440 Volume III: pages 1 441-1966 



