SUBJECT INDEX, VOLUMES I— III 



! 977 



Bufotcnin 



neural function and, 1904 

 Bulbar relays: see Medullary oblongata 

 Bulbocapnine 



EEG and, 917 

 Burning pain : see Pain 

 Butabarbital 



central nervous system metabolism 

 irt vitro, 1 839 



Caffeine 



cerebral blood flow and, 1 757 

 Calcium 



brain function and, 1879 



deficiency, neural functions and, [896 



EEG and, 1880 



end-plate potential and, 208 



ratio to potassium, brain function and, 

 1878 

 Caloric stimulation 



of endolymph, 556 

 Canine hysteria 



see also Convulsions, generalized 



description, 1904 

 ( larbon dioxide 



central nervous system pi 1 and, 1885 



conversion to carbonic acid, 1887 



thermoreceptors and, 455 

 Carbon dioxide tension 



cardiovascular regulation, 1145 



cerebral blood flow, 1 746, 1 756 



chemoreceptors and, 1 143 



hydrogen ion concentration and, 1118, 



i»43 

 medullary vasomotor neurons, 1146 

 oxygen tension and, 1 143 

 respiration regulation and, 1 1 18 

 reticular formation and, 1 280, 

 spinal vasomotor neurons, 1 146 



Carbon monoxide 



poisoning, pallidum in, 878 



Carbonic anhydrase 



CO L > metabolism in brain and, 1887 



( lardiac renters 



medulla oblongata and, 1140 



Cardiac nerve activity 



arterial pressure, 1140, 1143 



( lardiac nerves 



central representation oi, 1 138-1 151 



( lardiac receptors 



afferent libers and, 1 1 44 



Cardiovascular control 



see also Vasomotor mechanism 

 adrenal medulla and, 1 158 

 amygdaloid stimulation and, 1404 

 carbon dioxide tension and, 1 1 4", 

 cardiac vagus, 1 137-1 138 

 central, 1 131-1 158 

 cerebellum, 1151 

 cerebral cortex, 1149-1151, 1154 

 chemoreceptor reflexes and, i 145 

 efferent pathways, 1 132-1 138 



hypothalamicospinal pathways, 1148 

 hypothalamus, 1 147-1149, 1153 

 medulla oblongata, 958, II 39-1 147, 



"53 

 mesencephalon, 1147-1149 

 oxvyen tension and, 1 145 

 parasympathetic vasodilator nerves, 



11 37- "38, 1 15 6 

 pressor, depressor reflexes and, i 145 

 rhinencephalon, 1 150 

 schematic drawing, I 157 

 sensory and nociceptive impulses and, 



11 45 

 spinal cord, 1138-1139, 1 1 ",-• 

 sympathetic vasoconstrictor nerves, 



1 1 $2-1135 

 sympathetic vasodilator nerves, "35- 



"37. "5'-"55 



temporal lobe, 1 150 



vasoconstrictor inhibition. 1 1 37 



vasodilator activation, 1 157 

 ( larotid artery 



occlusion, pressoi response to, 1144 

 Carotid body 



cardiovascular regulation and, 1141- 

 1 1 13 



chemical stimulation, 1 1 24 



respirator) regulation and, 1123 

 ( larotid sinus 



1 11 nil, iion reflexes from, 1142, 1 1 1 1 



Inhibition of reticular formation, 1584 

 ( Castration 



sex ImIi.iv ior and, 1227 

 ( latalepsy 



lesions pi 1 nine ing, Jt-I) 



Catecholamines 



see also Adrenergic transmitter; Dopa- 

 mine. Epinephrine; (sopropylnor- 

 cpincplu inc. Norepinephi me. Trans- 

 mitter substances 

 bod) temperature control and, 1189 

 nervous reflex activation ol neuro- 

 h\ pophysis and, 1033 



reunite effects of, -'-■", 

 urinary excretion of, 2 -' ", 



( .hi. I. ur nucleus 

 see also Basal ganglia; Corpus striatum; 



Lenticular nucleus. Pallidum; 1'ut.i- 



men 

 convulsion inhibition by, ;h 

 function of, 875 

 lesions of, 87 | 

 seizure threshold, 875 

 sensorimotor integration and, 815 

 stimulation, 872, 918 

 reticular formation and, 918 



sleep and, 91 1 

 unspecilic projection system and, 131 3 

 Central auditory function, 585-612 

 w. ,:/ui Auditory cortex 

 dispersion of excitation, 61 1 

 frequency specificity, 607 



functional requirements, 587 



inhibition, 61 1 



lateral lemniscus and nucleus, 589 



laterality of projection, 609 



loudness and, 609 



recurrent pathway, 61 1 

 Central excitatory state: see Central 



nervous system 

 Central inhibitory state: see Central nerv- 

 ous system 

 Central nervous system 



action wave model, 1956 



anterior pituitary and, 1007 



axons 



potentials from, 268 



barriers of, 1770-1777 



blood-aqueous fluid barrier, 1 770-1 772 



blood-brain barrier, 1773-1774. 1871- 

 1877 



blood-ceiebrospinal fluid barrier, 1772- 



'773 

 cell types and specificity, 1932 

 1 lirmic.il considerations, 1933 

 chief sensory, associative and motor 



paths, diagram, 1 702 

 coding, 1939 



computer models and. 11121 

 control of 



anterior pituitary activity, 1015- 

 <i 



bladder, 1 207 1 222 



body temperature, 1173-1193 



iiovasciil.ir regulation, 1 131 — 11 58 



digestive function, 1 163-1 169 



feeding and drinking, 1 197-1205 

 n 11 secretion, 1 168 



gastrointestinal motility . 1166 



mastication, 1 [64 



micturition, 1214 



respiration, tin 1 126 



swallowing, 1 165 



triad response, 663 



vomiting, 1 167 

 development, 191 2 



endocrine activity and, 1027 

 self-detei mutation, 1913 

 siiniiur.il abnormalities, 1913 

 dynamic organization, 1935-1943 



d\ n.iiiiic state of. 1802 



environment, dynamics of, 1877-1888 



excitatory state 



depolarizing p.s.p.'s and, 164 

 extracellular space in, 1 795 

 eye movements, 1089-1126 

 facilitation of postural reflexes, 1075 

 feeding and, 1 199 

 feed-back loops, 1 93 1 

 field currents in, mi 

 fields, 1938 

 flow paths in. 1 11 J2 

 fluid compartments of, 1794-1796, 



1866-1870 



Volume I : pages 1—780 Volume 11 : pages 781—1440 I'olume 111 , /)««<•> ijji-ig66 



