SUBJECT INDEX, VOLUMES I— III 



1979 



evoked potentials, 125 1 



repetitive stimulation, 1251 



sensory input and, 1 252 



spontaneous, 1 257 



surface stimulation and, 125 1 

 Cerebellar ataxia 



definition, 1266 



reflexes in, 788 

 ( lerebellar cortex 



afferent activity and, 1252 



anatomy, 1247 



anterior lobe 



efferent paths, 1260 

 intermediate portion, 1260 

 vermian portion, 1 259 



chemical stimulation, 1262 



coordination of voluntary movements, 



■^99 



electrical activity of, 1 249 



mechanical stimulation, 1262 



posterior lobe 



eye movements, 1 261 

 postural tonus and, 1 261 



stimulation of, 1259-1262 



stimulus sites, 1 294 

 Cerebellar destruction, 1 265-1 273 



anterior lobe, 1270 



facilitory withdrawal and, 1 267 



flocculonodular lobe, 1 269 



inhibitory withdrawal, 1267 



localized, 1 269 



phasic contraction after, 1267 



posterior lobe, 1271-1272 



total, 1266 



unilateral, 1268 

 Cerebellar dysarthria: see Cerebellar 



function 

 Cerebellar function, 788, 1257, 1273-1275 



alteration due to stimulation, 1258- 

 1265 



anterior lobe, 1 .•i>4 



asthenia, 1 274 



compensation, 1275 



destruction and, 1265-1273 



dysarthria, 1716 



hypertonus, 1273 



hypotonia, 1274 



phasic reflexes, 1274 



posterior lobe, 1265 



skilled movements and, 1699 



speech and, 1716 



voluntary movement, 1274 

 Cerebellar nuclei 



corticonuclear relations, 1 247 



electrophysiological studies of, 1256 

 Cerebellar nystagmus: see Nystagmus, 



cerebellar 

 ( lerebellar peduncles 



electrophysiological studies of, 1256 



inflow to cerebellum and, 1249 



outflow from the cerebellum, 1 249 

 ( lerebellocerebral interrelationships 



cerebellopetal influences, 1253, 1254 

 extrapyramidal function and, 899-901 

 sensorimotor integration and, 815 

 voluntary movement, 1274 

 Cerebellum 



alpha and gamma motoneurons and, 



1 26 1 

 anatomy, 1 246-1 249 

 anterior lobe 



efferent paths, 1260 



locus of action, 1261 

 auditory pathway and, 590, 591 

 autonomic function and, 974 

 cardiovascular control and, 1151 

 cerebral cortical electrical activity and, 



1263 

 cerebral cortical motor functions and, 



1 262, 1 263 

 deficiencies, in man, 1-7", 

 enzymes in, 1816 

 globosus, stimulation of, 12(12 

 ■11]^ morphology, 1 246 



schematic representation, 1 248 

 influence of voluntary movement, 1274 

 interpositus, stimulation of, 1262 

 interrelations with cerebral cortex and 



spinal cord, 898-900 

 nature of postural responses from, 711-' 

 projection from retina, 1098 

 projections to reticular formation, 1256 

 Purkinje cells 



composition, 1819 

 regulation of voluntary movement, 900 

 respii .illoii ami. 1114 



1 <-t 11 1 1 l.i 1 formation and, 1256, 1285, 

 1294 



seizures, description, 1 2I1 j, [264 

 sensorimotor integration and, 815 

 spontaneous activity, 1 240 

 stimulation of interior, 1262-1265 

 vermis, cerebral projections to, 1 25 1 

 vestibular nuclei projections, [257 

 Cerebral blood flow, 17,1 1758 

 age and, 1 755 

 blood chemistry and, 1 745 

 carbon dioxide tension, 1 756 

 cellular metabolism and, 1746 

 central nervous system metabolism and, 



[852 

 cerebral arteriosclerosis, 1757 

 df ugs and, 1 757 

 essential hypertension, I 757 

 factors influencing, 1745-1750 

 humoral control, 1 756 

 in human disease, 1757-1758 

 measurement, 1 753 

 methods of study, 1 753—1 754 

 neurogenic control, 1 756 

 neurohormones, 1 748 

 nitrous oxide method, 1754 

 normal values, 1 754-1 755 

 oxygen tension, 1 756 



radioactive krypton and, 1754 

 regional differences, 1848 

 sleep and, 1 755 

 temperature and, 1 755 

 vascular resistance, 1756 

 vasomotor nerves and, 1747 

 Cerebral circulation 

 anatomy, 175 1-1753 

 arterial supply, 1751 

 factors influencing, 1 745-1 750 

 in human disease, 1757-1758 

 methods of study, 1753-1754 

 venous drainage, 1752 



( rubral cortex 

 see also Neocortex 

 ablation, pain and, 493 

 ablation, precentral gyrus, 790 

 activation, midbrain and thalamic 



level, 1318 

 afferent-efferent overlap in, 1332 

 afferent impulse interaction, 310 

 afferents, for sensorimotor integration, 



814-818 

 agranular, granular and granulous 



cells, [346 

 aim gd.iloid 1 onnection, 1 390 



anemia 



(If. potential and, 318 

 arterial pressure and, 1358, 1755 

 auditory projection system and, 591 

 autonomic mechanisms and, 972 

 behavioral arousal and, 1361 

 Broca's area, 



aphasia and, 1 71 7 

 cardiovascular control and, 1149 

 cardiovascular efferent pathways, 1150 

 cerebellar activity and, 815, 899-901, 



1253, 12 -,4. 1263, 1274 

 connections with hippocampus, 1376 

 contribution to I and D waves, 842 

 corticilug.il sensory control, 749-752 

 criteria, [536 

 ■ I 1 potentials in, 315-327 

 diagram of interrelations with sub- 

 cortical structures, 81 g 



electrical acti\ ity, cerebellum and, 1 263 

 electromtcrograph of, 1869 



emotion and, 1 73 1 



evoked potential maps, 1452 



excitability of, 310, 31 1 



excitation of pyramidal tract and, 841 

 excitation spread, comparison of units 



at different depths, 852 

 extrapyramidal areas, 921 



in relation to subcortical centers, 

 896-899 

 extrapyramidal function and, 896-899 

 food intake and, 1202 

 frontal lobe, pyramidal contributions, 



820 

 functional unity of vertical columns, 



415 



Volume I: pages 1-780 Vulunn- II />«;'<■> 781-1 jj<> I'nlumc III: pages 1 jji-ig66 



