SUBJECT INDEX, VOLUMES I— III 



200S 



amygdaloid stimulation and, 1404 

 arrest, hippocampal stimulation and, 



'392 



body temperature and, 1 181, 1 184 



cellular: see Neuroglia, Neuron 



cortical and cerebellar influence, 1114 



electrical stimulation of brain stem 

 and, 1 1 1 4 



heating of hypothalamus and, 1176, 

 .183 



inhibition, cingulate cortex and, 1350 



muscles 



electromyographic studies, 1 1 ig 

 rhythmic activity, 1119 



neural control, 1 1 1 1-1 126 



normal, explanation, 1 1 16 



pressoreceptor influence, 11 24 



rate 



cortical areas and, 1348-1349, 1351 

 heating of anterior hypothalamus 

 and, 1 176 



reticular formation and, 1299 



rhythmic, mechanisms for, 1116 

 Respiratory centers 



anatomy of, 1 1 1 1— 1 1 16 



functional scheme, diagram, 1 1 18 



in spinal cord, [1 15 



inspiratory and expiratory, 959, 1112 



localization, 1112 



pneumotaxic, 1 1 1 7 



primary 



in medulla oblongata, 1112 

 in the pons, 1112 



primary and secondary, 1 1 1 1 



reciprocity, 1 1 1 7 



rhythmicity, 1 1 1 7 



vagotomy and, 1 1 18 

 Respiratory reflexes 



chemoceptive, 1123, 1145 



proprioceptive, 1124 



protective, 1 124 



swallowing and, 1 1 25 

 trigeminal nerve and, 1 1 25 

 Respiratory regulation 



aortic chemoreceptors, 1 123 



basic rhythms, 1 1 18 



carbon dioxide, 1118 



carotid bodies, 1123 



cortical stimulation and, 1 1 15 



descending spinal tracts, 1116 



extrinsic, 1 I 20- 1 126 



I [ering-Breuer reflex ami, 1 120 



intrinsic, 1 1 ifi-i 120 



medullary center, 959 



muscular activity and, 1 1 25 



psychic influences, 1 1 19 



spinal pathways, 956 



upper brain stem and, 1 1 1 3 



vagal chemoreceptive, 1123 



\ agus and, 1 120 

 Respondent conditioning : see Condition- 

 ing 



Response 



behavioral, definition, 1334 

 Resting potential 



current theories, 1 17 



definition, 83 



equilibrium potential and, 162 



external K concentration and, 1 1 7 



potassium potential and, 168 

 Reticular activating system: see Reticular 



formation 

 Reticular formation, 1 281-1301 



acetylcholine and, 1289 



activation, 42 1 



akinetic mutism, 1297 



anatomy, 1 281-1284, 1559-1560 



anoxic convulsions, 339 



arousal response, 1 287 



ascending influences, 1284— 1991 



ascending sensory paths and, 752 



as activating system, 1 558- 1 jti 1 



as functional unit, 421 



as origin of generalized convulsions, 



335 

 attention and, 367, 1466 

 auditory pathway and, 591 

 autonomic mechanisms and, 1298, 1299 

 basal ganglia and, 1285, 1295 

 behavior and, 755, 1566 

 body temperature control and, 1188 

 bulbar relays and, 745 

 Carbon dioxide and, 1289 

 cardiac center, I 140 

 carotid sums inhibition, 1584 

 central brain stem and, 1 28 \ 

 cerebellum and, 1285, 1294 

 cerebral afferent systems and. 747-749 

 cerebral cortex. 1 20 3 

 cingulate cortex and, 1355 

 conduction rates, 1 285 

 connections wit h amygdala, 1398 

 control ol afferent paths by, 745-747 

 cortie.il responses, 1 287 

 corticifug.il connections, 1285 

 corticifuu.il pathways to, 1560 

 descending influences, 1 291-1298 

 description, 957 

 distinction from thalamic projection 



system, 1562 

 dorsal column relays and, 745 

 drug effects, 1 28(1, 1 290 

 dual arousal system, 1566 

 EEG, in conditioning, 1483 

 efferent effects upon retinal activity, 



745 

 efferent pathway and, 757 

 electrophysiological characteristics, 



1 284-1287 

 emotional behavior and, 1532 

 epinephrine and, 1076, 1289 

 ergotrophic and trophotropic system 



and, 1557 

 evoked potentials, 1284-1286 



excitatory and inhibitory centers in, 



961 

 extrapyramidal integration and, 913, 



922 

 cxtrathalamic influences, 1566 

 facilitation, 1292, 1587 

 hearing and, 591 

 hippocampus and, 1383 

 hypothalamic-cortical discharge and, 



1561 

 inhibition, 1291 



facilitation and, 1567 



spinal relays and, 746 

 integration of postural mechanisms, 902 

 interaction thalamic projection system 



and neocortex, 1566 

 interneurons and, 1293 

 lesions in, 867 



medial lemniscal system and, 421 

 tnicroelectrode studies, 1286 

 mood-altering drugs and, 1290 

 motor mechanisms and, 828 

 neurohumoral mechanisms, 1288, 1289 

 neuronal slim line. 958 

 neuronography, 1 285 

 nystagmus and, 913 

 pain perception and, 756 

 pal .iplegi.i, 1 207 

 pliylogenetic concept, 1568 

 pontine 



in decerebrate rigidity, 786 



proprioceptive positive supporting 

 reaction and, 786 

 precedence over thalamic projection 



system, 1562 

 pressor and dcpressoi regions, 1 1 jq 

 projections 



from cerebellum, 1256 



from tliermodetectors, 1 188 

 pv 1 ifoi 111 mi te\ and, 1 355 

 rapid phase ol nystagmus and, 559 

 regulation of quantities of food and 



water, 1 200 

 repetitive stimuli and, 1286 

 respiratory centers in, 1112 

 reticulofiigal projections, 1284 

 reticulopetal connections, 1282 

 reticulopetal inputs, 1293 

 sensation and, 1300 

 sensory system, connection. 1284 

 sensory system, correlation and, 31 1 

 sex behavior and. 1 257 



sleep, 1287, 1288 



spasticity and, 1 296 



spinal ascending relays and, 745 



spinal motor activity and, 561 



spinothalamic tract and, 421 



sii etch receptors and, 743 



thalamic influences, 1567 



thalamic nuclei and, 1283, 131 7-1 319 



tonic and clonic spasms and, 340 



tremor and, 1298 



Volume I pages 1—J80 Volume II pages -81-1 jj<> Volume III: pages 1 jji-1966 



