igfio 



iiandhook in- i'insic)i.o(;\- 



NErRoi'HYSitn.or;Y in 



grasping and avoiding responses, 792 

 initial spike latency of cells, 853 

 interaction systems in. 748 



interrelations with cerebellum and 



spinal cord, Ht|H 900 

 isolated after-discharges, 306 

 latency values in various layers, B32 

 lesions in epilepsy, 349 

 map of pyramidal responses, 8 \~, 

 mapping by evoked D-waves, 844 

 maternal behavior and. i 233 

 microelectrode studies of, 1569 

 motor functions, cerebellum and, 1262, 



1263 

 motor inhibition, 805 

 motor representation 



in man, 800-803 



nature of, 805 



phyletie aspects, 799 

 movement and, 790, 797-829 

 neocortex, behavior and, 1542 

 occipital lobe, pyramidal contributions, 



821 

 origin of pyramidal libers, 818-821 

 pain and, 492-498 

 paresis and, 791, 807-808 

 piriform stimulation, 351 

 polysensory areas, motor integration 



and, 824 

 1 11 isti rntral homologue 



patterns, 402 

 postcentral pyramidal contributions, 



820 

 precentral ablation and pyramidal 



dlseh.il L'l's. It |li 



j.i tin area, pyramidal contribu- 

 tions, 820 



projections from dorsal thalamus, 1326 



projections to vermis, 1254 



psychomotor level, 899 



pupillary dilatation, 1360 



pyramidal and precentral lesions com- 

 pared, 791 



p\ 1 .11111d.il proiection an as, ft |l> 



reci uiting response from v .11 ions .11 eas, 



1311 

 h|« titive firing and, 852 

 repetitive firing of Betz cells. H 1 ^ 

 respiration and, 1 114 

 retii ul. u control of 



■'Mi 1 cut to, 747-749 

 ntiiul.il tin in.ition and. 1 2H7, [293 

 se\ be li,i\ mi .mil. 1 229 

 somesthetii " 1 a 



electi ical stimulation of, 1 |6 



spasticity and 79 1 



stimulation 



autono 11 omitants 806 



1 11 motility and, 1 166 



pj i.iinid.il wave ' ompli \. s, •'!).: 

 sii m bnini 



supplementary motor areas, 808 



ablation and stimulation, 808-813 

 sympathetic vasodilator nerves and, 



i'54 



taste representation in, 510 



temporal lobe-, pyramidal contribu- 

 tions, 82 1 



thermosensitive units in. ) |6 



unspecific thalamo-relations, 1307 - 



■3'9 

 visual mechanisms in, 719-727 

 voluntary movements and, 824 



< lerebral cortex (area 4) 



ablation 



age and recovery after, 808 

 ablation, localized, 1689 



pyramidal tract and, 844 



skilled movements, 1689 



studies, 807 



Babinsky after, 807 

 cardiovascular responses from, 1 149 

 characteristics of stimulant current and 



results, 804 

 chemical vs. histological composition, 



1803 

 control of movement, 790 

 cytoarchitecture, 1687 

 destruction of, 896 

 motor representation, 168] 

 organization of, 



problems in, 1686 



recovery after, 808 

 stimulation of, 803 



motor after-discharges and, 1352, 



'353 

 Cerebral cortex (area 6) 

 destruction of, 896 

 function, 810 

 motor apraxias and, 1691 

 simultaneous removal with basal 

 ganglia lesions, 874 

 ( lerebral hemispheres 



connection in ipsilaleral, 816 

 dominance-, in apraxias, 1693 

 transcallosal connections, 817 

 transcortical connections, functions, 

 1695 

 Cerebral ischemia 



central nervous system metabolism, 

 1853 

 1 erebral metabolic rate tee Central 

 nervous system metabolism m vivo; 

 ( lerebral blood Mow 

 Cerebral peduncle 



stimulation and section of, 82 1 



< lerebral \ ascular tonus 



1. n tin all'i 1 ting, t 747 

 ( lerebrospinal fluid 

 • in 11 « iid plexuses and, 1763 

 composition, Im.uh composition and, 



1776 

 Mi '» , .ic etazolamide and, 1886 



function, [865 



mechanism of drainage, 1777 



pressure 



posture and, 1 784 

 vascular pressure and, 1 783 

 protective function, 1 785 

 rate- of Mow, 1 776 

 relation to interstitial Quid, 1871 

 1 lerebrospinal fluid-brain barrier 



permeability of, 1777-1778 

 ( lerebrospinal system 



an, ltnlllir.il aspects, I 7I1I 1 7I11 



Cerveau isoli 



arousal in, 1 288 

 ( Ihemical energy 



receptor excitation by. 1 24 

 Chemical stimuli 

 taste and, 510 

 ( ihemical transmission 



see also Transmitter substances 

 anatomy, 2 1 b 

 versus electrical, 21 7 

 ( Ihemoreceptors 



cardiovascular regulation 



carbon dioxide tension and, 1 143 

 impulses from, 1 143 

 properties, 1 143 

 reflexes and. 1 145 

 stimulation of, 1141 

 invertebrate, 375, 376 

 temperature changes and. 376 

 Chimpanzee: see Primates 

 Chloral 



central nervous system metabolism in 

 vitro, 1 •'<;'! 

 Chloride inn 



as measure of extracellular space, 



1795, 1867 

 concentration, intracranial and intra- 

 ocular lluids, 1 780 

 Chlorpromazine 



body temperature control and, I 191 

 central nervous system metabolism and. 



1861 

 conditioned behavior and, 1 (88 

 decerebrate rigidity and, 907 

 EF.G and, 917 

 BEG arousal and, 1290, 1201 



Parkinson-like tremor and, 1291 



( Iholine acetylase 



characterization, 232 

 Cholinergic transmitter, 230 2 j j 

 see a/in Acetylcholine; Curare; Neuro- 

 musculai transmission; Parasympa- 

 thin. 1 1 ansmittei lubstant es 

 acetylcholine as. [39, [55, 166, 1711. 

 .■ 



Iiliisv 1 It 1 1' -IS, 23I . 2 32 

 1 ll.ll .11 111 istic v. J [0, 23I 



mechanism ol release, ■; \-: 



p.u.isv mpatlim, 2 c( 



storage, 232 



Voiumt I I Volume 11: pages jHi-ijjn 



1 'olu 



III pages 1 ./.11 /•/'.'. 



