Portal de Periódicos da CAPES

GENERAL PROBLEMS OF DRUG ACTIONS ON BIOELECTRIC PHENOMENA

1957; Wiley; Volume: 66; Issue: 3 Linguagem: Inglês

10.1111/j.1749-6632.1957.tb40748.x

1749-6632

Harry Grundfest,

Neuroscience and Neuropharmacology Research

Annals of the New York Academy of SciencesVolume 66, Issue 3 p. 537-591 GENERAL PROBLEMS OF DRUG ACTIONS ON BIOELECTRIC PHENOMENA Harry Grundfest, Harry Grundfest Department of Neurology, College of Physicians and Surgeons, Columbia University, New York, N. Y.Search for more papers by this author Harry Grundfest, Harry Grundfest Department of Neurology, College of Physicians and Surgeons, Columbia University, New York, N. Y.Search for more papers by this author First published: March 1957 https://doi.org/10.1111/j.1749-6632.1957.tb40748.xCitations: 38 The work from this laboratory described in this paper was done with partial support through grants from the Atomic Energy Commission (Contract AT 30-1 1076) Washington, D. C.; Muscular Dystrophy Associations of America Inc. New York N. Y: National Institute; of Health (Grant B-389C) the National Science Foundation, Washington, D. C.; and the United Cerebral Palsy Association, Inc., New York, N. Y. AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat References 1 Altamirano, M. & H. Grundfest 1954. Three excitable systems of the synaptic unit of the innervated electroplaque preparation. Trans. Am. Neurol. Assoc. 79: 79. 2 Altamirano, M., C. W. Coates & H. Grundfest 1955. Mechanisms of direct and neural excitability in electroplaques of electric eel. J. Gen. Physiol. 38: 319. 3 Grundfest, H. 1956. Synaptic transmission and electrical excitation. In 5th Conf. on the Nerve Impulse. Josiah Macy, Jr. Found. New York , N. Y. pp. 177–218. 4 Grundfest, H. 1957. Excitation triggers in post-junctional cells. In Symposium on Physiological Triggers. Am. Physiol. Soc. pp. 119–151. 5 Grundfest, H. 1957. The mechanisms of discharge of the electric organs in relation to general and comparative electrophysiology. In Progress in Biophysics 7. Pergamon Press. London , England . pp. 1–85. 6 Grundfest, H. 1956. Electric field effects and synaptic potentials in the functioning of the nervous system. Trans, J. Beritashvili Inst. In press. 7 Purpura, D. P. 1956. Experimental analysis of the inhibitory action of LSD on cortical dendritic activity. Ann. N. Y. Acad. Sci. 66 (3): 515. 8 Hodgkin, A. L. 1951 The ionic basis of electrical activity in nerve and muscle. Biol. Revs. Cambridge Phil. Soc. 26: 339. 9 Grundfest, H. 1955. The nature of the electrochemical potential of bioelectric tissue. In Electrochemistry in Biology and Medicine. T. Shedlovsky, Ed. John Wiley & Sons. New York , N. Y. . 10 F. A. Brown & J. F. Danielli, Eds. 1954. Active Transport and Secretion. Biological Symposia 8. Academic Press. New York , N. Y. 11 Hodgkin, A. L. & A. F. Huxley 1952. A quantitative description of membrane current and its application to conduction and excitation in nerve. J. Physiol. 117: 500. 12 Altamirano, A., C. W. Coates, H. Grundfest & D. Nachmansohn 1955. Electric activity in electric tissues. III. Modifications of electrical activity by acetylcholine and related compounds. Biochim. et Biophys. Acta. 16: 449. 13a Grundfest, H. & C. Y. Kao 1955. Graded and explosive responsiveness of spike generator in squid axons. Federation Proc. 14: 65. 13b Grundfest, H. & C. Y. Kao Unpublished data. 14 Kao, C. Y. & H. Grundfest 1955. Graded response in squid giant axons. Biol. Bull. 109: 348. 15 Bernstein, J. 1882. Die Erregungszeit der Nervenendorganein den Muskeln. Arch. Physiol.: 829. Cited by J. B. Sanderson. 1900. In Schafer's Textbook of Physiology. : 385. Macmillan. London , England . 15b Biedermann, W. 1895. Elektrophysiologie. : 743. Fischer. Jena , Germany . 15c Du Bois-Reymond, E. 1877. Gesammelte Abhandlungen zur allgemeinen Muskel-und Nervenphysik. :. 714. Veit. Leipzig , Germany . 16 Kühne, W. 1888. On the origin and causation of vital movement. Proc. Roy. Soc. London. B. 44: 427. 17 Gotch, F. 1900. The physiology of electrical organs. In Textbook of Physiology. E. Schafer, Ed. 2. Macmillan. New York , N. Y. 18 Lapicque, L. 1926. L'excitabilité en function du temps. Les Presses Universitaires de France. Paris , France . 19 Grundfest, H. 1932. Excitability of the single fibre nerve-muscle complex. J. Physiol. 76: 95. 20 Lucas, K. 1907. The excitable substances of amphibian muscle. J. Physiol. 36: 113. 21 Kuffler, S. W. 1945. Electric excitability of nerve-muscle fiber preparation. J. Neurophysiol. 8: 77. 22 Eccles, J. C. 1946. An electrical hypothesis of synaptic and neuromuscular transmission. Ann. N. Y. Acad. Sci. 47 (4): 429. 23 Eccles, J. C. 1953. The Neurophysiological Basis of Mind. Clarendon Press. Oxford , England . 24 Dale, Sir, Henry, H. 1954. The beginnings and the prospects of neurohumoral transmission. Pharmacol. Revs. 6: 7. 25 Kuffler, S. W. 1948. Physiology of neuromuscular junctions. Electrical aspects. Federation Proc. 7: 437. 26 Kuffler, S. W. 1949. Transmitter mechanisms at the nerve-muscle junction. Arch. Sci. Physiol. 3: 585. 27 Fatt, P. & B. Katz 1951. An analysis of the end plate potential recorded with an intracellular electrode. J. Physiol. 115: 320. 28 Del Castillo, J. & B. Katz 1954. The membrane changes produced by the neuromuscular transmitter. J. Physiol. 125: 546. 29 Nastuk, W. L. 1953. Membrane potential changes at a single muscle end-plate produced by transitory application of acetylcholine with an electrically controlled micro-jet. Federation Proc. 12: 102. 30 del Castillo, J. & B. Katz 1955. On the localization of acetylcholine receptors. J. Physiol. 128: 157. 31 del Castillo, J. & B. Katz 1955. Local activity at a depolarized nerve-muscle junction. J. Physiol. 128: 396. 32 del Castillo, J. & B. Katz 1956. Biophysical aspects of neuromuscular transmission. In Progress in Biophysics 6. Pergamon Press. London , England . 33 Kuffler, S. W. & E. M. Vaughan-Williams 1953. Properties of the “slow” skeletal muscle fibers of the frog. J. Physiol. 121: 318. 34 Burke, W. & B. L. Ginsborg 1956. The action of the neuromuscular transmitter on the slow fibre membrane. J. Physiol. 132: 599. 35 Roeder, K. D. & E. A. Weiant 1950. The electrical and mechanical events in neuromuscular transmission in the cockroach Peripleneta americana. J. Exptl. Biol. 27: 1. 36 Wilson, V. J. 1954. Slow and fast responses in cockroach leg muscle. J. Exptl. Biol. 31: 280. 37 Hagiwara, S. & A. Watanabe 1954. Action potential of insect muscle examined with intracellular electrode. Japan. J. Physiol. 4: 65. 38 Furshpan, E. J. 1955. Studies on certain sensory and motor systems of decapod crustaceans. Ph.D. Thesis. Calif. Inst. Tech. Pasadena , Calif. 39 Garten, S. 1910. Die Produktion von Elektrizität. Winterstein's Hdbuch. vergl. Physiol. 3 (2): 105. 40 Feldberg, W. & A. Fessard 1942. Cholinergic nature of the nerves to the electric organ of Torpedo. J. Physiol. 101: 200. 41 du Bois-Reymond, E. 1881. Dr. Carl Sachs: Untersuchungen am Zitteraal Gymnolus electricus. Veit. Leipzig , Germany . 42 Martins-Ferreira, H. & A. Couceiro 1951. Comportement du tissu électrique de l'Electrophorus electricus en conséquence de la dénervation. Anais acad.brasil. cienc. 23: 377. 43 Altamirano, A., C. W. Coates, H. Grundfest & D. Nachmansohn 1953. Mechanisms of bioelectric activity in electric tissues. I. The responses to indirect and direct stimulation of Electrophorus electricus. J. Gen. Physiol. 37: 91. 44 Brock, L. G., R. M. Eccles & R. D. Keynes 1953. The discharge of individual electroplates in Raia clavata. J. Physiol. 122: 4(P). 45 Brock, L. G., J. S. Coombs & J. C. Eccles 1952. The recording of potentials from motoneurons with an intracellular electrode. J. Physiol. 117: 431. 46 Araki, T., T. Otani & T. Furukawa 1953. The electrical activities of single motoneurons in toad's spinal cord, recorded with intracellular electrodes. Japan. J. Physiol. 3: 254. 47 Eccles, R. M. 1955. Intracellular potentials recorded from a mammalian sympathetic ganglion. J. Physiol. 130: 572. 48 Purpura, D. P. & H. Grundfest 1956. Effects of curare and strychnine on components of evoked cortical potentials. Federation Proc. 15: 146. 49 Grundfest, H. & D. P. Purpura 1956. Inexcitability of cortical dendrites to electric stimuli. Nature. 178: 416. 50 Hagiwara, S. & T. H. Bullock 1955. Study of intracellular potentials in pace-maker and integrative neurons of the lobster cardiac ganglion. Biol. Bull. 109: 341. 51 Tauc, L. 1955. Étude de l'activitéélémentaire des cellules du ganglion abdominal de l'Aplysia. J. Physiol. 47: 769. 52 Arvanitaki-Chalazonites, A. & N. Chalazonitis 1956. Activation du soma géant d'Aplysia par voie orthodrome et par voie antidrome. Arch.sci. physiol. 10: 95. 53 Eccles, J. C., P. Fatt & K. Koketsu 1954. Cholinergic and inhibitory synapses in a pathway from motor-axon collaterals to motor neurones. J. Physiol. 126: 524. 54 Coombs, J. S., J. C. Eccles & P. Fatt 1955. The specific ionic conductances and the ionic movements across the motoneurone membrane that produce the inhibitory post-synaptic potentials. J. Physiol. 30: 326. 55 Bernstein, J. 1912. Electrobiologie. Fr. Vieweg. Braunschweig , Germany . 56 Lundberg, A. 1955. The electrophysiology of the submaxillary gland of the cat. Acta Physiol. Scand. 35: 1. 57 Fatt, P. & B. Katz 1953. The effect of inhibitory nerve impulses on a crustacean muscle fibre. J. Physiol. 121: 374. 58 Kuffler, S. W. & C. Eyzaguirre 1955. Synaptic inhibition in an isolated nerve cell. J. Gen. Physiol. 39: 155. 59 Hodgkin, A. L., A. F. Huxley & B. Katz 1952. Measurement of current voltage relations in the membrane of the giant axon of Loligo. J. Physiol. 117: 424. 60 Tasaki, I. 1956. Initiation and abolition of the action potential of a single node of Ranvier. J. Gen. Physiol. 39: 377. 61 Furchgott, R. F. 1955. The pharmacology of vascular smooth muscle. Pharmacol. Revs. 7: 183. 62 Hodgkin, A. L. 1948. The local electric changes associated with repetitive action in a nonmedullated axon. J. Physiol. 107: 165. 63 Eccles, J. C., R. M. Eccles & P. Fatt 1956. Pharmacological investigations on a central synapse operated by acetylcholine. J. Physiol. 131: 154. 64 Frank, K. & M. G. F. Fuortes 1956. Unitary activity of spinal interneurones of cats. J. Physiol. 131: 424. 65 Grundfest, H. & B. Campbell 1942. Origin, conduction and termination of impulses in the dorsal spino-cerebellar tract of cats. J. Neurophysiol. 5: 275. 66 Lloyd, D. P. C. 1955. Principles of nervous activity. In Textbook of Physiology. J. F. Fulton, Ed. 17th ed. Saunders. Philadelphia , Pa . 67 Laporte, Y., A. Lundberg & O. Oscarsson 1956. Functional organization of the dorsal spino-cerebellar tract in the cat. I-III. Acta Physiol. Scand. 38: 175. 68 Wiersma, C. A. G. 1953. Neural transmission in invertebrates. Physiol. Revs. 33: 326. 69 Kao, C. Y. & H. Grundfest 1956. Conductile and integrative functions of crayfish giant axons. Federation Proc. 15: 104. 70 Minz, B. 1955. The Role of Humoral Agents in Nervous Activity. C. C. Thomas. Springfield , Ill. 71 Dale, H. H. 1906. On some physiological actions of ergot. J. Physiol. 34: 163. 72 Eccles, J. C., B. Katz & S. W. Kuffler 1941. Nature of the “endplate potential” in curarized musc Ie. J. Neurophysiol. 4: 362. 73 Göpfert, H. & H. Schaefer 1938. Über den direkt und indirekt erregten Aktionsstrom und die Funktion der motorischen Endplatte. Pflügers Arch. ges. Physiol. 239: 597. 74 Eccles, J. C. 1943. Synaptic potentials and transmission in sympathetic ganglion. J. Physiol. 101: 465. 75 Hunt, C. C. & S. W. Kuffler 1950. Pharmacology of the neuromuscular junction. J. Pharmacol. Exptl. Therap. 98: 96. 76 Kuffler, S. W. 1943. Specific excitability of the end-date region in normal and denervated muscle. J. Neurophysiol. 6: 99. 76a Brink, F., D. W. Bronk & M. G. Larrabee 1946. Chemical excitation of nerve. Ann. N. Y. Acad. Sci. 47 (4): 457. 77 Burns, R. D. & W. D. M. Paton 1951. Depolarization of the motor end-plate by decamethonium and acetylcholine. J. Physiol. 115: 41. 78 Paton, W. D. M. & W. L. M. Perry 1953. The relationship between depolarization and block in the cat's superior cervical ganglion. J. Physiol. 119: 43. 79 Zaimis, E. J. 1954. The interruption of neuromuscular transmission and some of its problems. Pharmacol. Revs. 6: 53. 80 Thesleff, S. 1955. The mode of neuromuscular block caused by acetylcholine, nicotine, decamethonium and succinylcholine. Acta Physiol. Scand. 34: 218. 81 Krivoy, W. A. & J. H. Wills 1956. Adaptation to constant concentrations of acetyl-choline. J. Pharmacol. Exptl. Therap. 116: 220. 82 Chagas, C., L. Sollero & M. Miranda 1953. On the utilization of acetylcholine during the electric discharge of Narcine brasiliensis (Olfero).. Anais acad.brasilcienc. 25: 319. 83 Chagas, C., L. Sollero, H. Martins-Ferreira & H. C. Parreira 1953. On the utilization of acetylcholine during the electric discharge of Electrophorus electricus (L). II. Anais acad.brasil. cienc. 25: 327. 84 Chagas, C. & D. Albe-Fessard 1954. Action de divers curarisants sur l'organe électrique de l'Electrophorus electricus L. Acta Physiol. Latinoamer. 4: 49. 85 Fessard, A. 1952. Diversity of transmission processes as exemplified by specific synapses in electric organs. Proc. Roy. Soc. London. B. 140: 186. 86 Eyzaguirre, C. & S. W. Kuffler 1955. Processes of excitation in the dendrites and in the soma of single isolated nerve cells of the lobster crayfish. J. Gen. Physiol. 39: 87. 87 Eyzaguirre, C. & S. W. Kuffler 1955. Further study of soma, dendrite and axon excitation in single neurons. J. Gen. Physiol. 39: 121. 88 Wiersma, C. A. G., E. J. Furshpan & E. Florey 1953. Physiological and pharmacological observations on the muscle receptor organs of the crayfish, Camburus clarkii Girard. J. Exptl. Biol. 30: 136. 89 Keynes, R. D. & H. Martins-Ferreira 1954. Membrane potentials in the electroplates of electric eel. J. Physiol. 119: 315. 90 Paton, W. D. M. 1951. The pharmacology of decamethonium. Ann. N. Y. Acad. Sci. 54 (3): 347. 91 Ussing, H. H. 1954. Ion transport across biological membranes. In Ion Transport Across Membranes. H. T. Clarke & D. Nachmansohn, Eds. Academic Press New York , N. Y. . 92 Hogben, C. A. M. 1955. Biological aspects of active chloride transport. In Electrolytes in Biological Systems. A. M. Shanes, Ed. Am. Physiol. Soc. Washington , D. C. . 92a Riker, W. F., Jr. & W. C. Wescoe 1949. The relationship between cholinesterase inhibition and function in a neuro-effector svstem. T. Pharmacol. Exptl. Therap. 95: 575. 93 del Castillo, J. & B. Katz 1955. Effects of vagal and sympathetic nerve impulses on the membrane potential of the frog's heart. Nature. 175: 1035. 94 Hutter, O. F. & W. Trautwein 1956. Vagal and sympathetic effects on the pacemaker fibers in the sinus venosus of the heart. J. Gen. Physiol. 39: 715. 95 Gaskell, W. H. 1900. The contraction of cardiac muscle. In Textbook of Physiology. E. Schafer, Ed. 2. Macmillan. New York , N. Y. 96 Dale, H. H., P. P. Laidlaw & C. T. Symons 1910. A reversed action of the vagus on the mammalian heart. J. Physiol. 41: 1. 97 Middleton, S. M., H. H. Middleton & J. Toha 1949. Adrenergic mechanisms of vagal cardiostimulation. Am. J. Physiol. 158: 31. 98 Rossi, L. 1955. Arterioventricular conduction system and nerves in the human heart. Sci. Med. Ital. 3: 514. 99 Purpura, D. P. & H. Grundfest 1956. Blockade of cardiac synapses by succinylcholine. Science. 124: 319. 100 Perry, W. L. M. & J. Talesnik 1953. The role of acetylcholine in synaptic transmission at parasympathetic ganglia. J. Physiol. 119: 455. 101 McEwen, L. M. 1956. The effect on the isolated rabbit heart of vagal stimulation and its modification by cocaine, hexamethonium and ouabain. J. Physiol. 131: 678. 102 Purpura, D. P. & F. Gestring Unpublished experiments. 103 de Beer, E. J., J. C. Del Castillo, A. R. Phillips, R. Fanelli, A. L. Wnuck & S. Norton Synthetic drugs influencing neuromuscular activity. Ann. N. Y. Acad. Sci. 54 (3): 362. 104 Bovet, D. & F. Bovet-Nitti Succinylcholine chloride, curarizing agent of short duration of action. Pharmacodynamic activity and clinical applications. Sci. Med. Ital. 3: 484. 105 Ambache, N. 1955. The use and limitations of atropine for pharmacological studies on autonomic efferents. Pharmacol. Revs. 7: 467. 106 Rosenblueth, A. 1950. The Transmission of Nerve Impulses at Neuroeffector Junctions and Peripheral Synapses. Technology Press & Wiley. Cambridge, Mass. New York , N. Y. 107 Bozler, E. 1941. Influence of estrone on the electric characteristics and the motility of uterine muscle. Endocrinology. 29: 224. 108 Bulbring, E. 1955. Correlation between membrane potential, spike discharge and tension in smooth muscle. J. Physiol. 128: 200. 109 Csapo, A. 1954. A link between “models” and living muscle. Nature. 173: 1019. 110 Goodman, L. S. & A. Gilman 1955. The Pharmacological Basis of Therapeutics. Macmillan. New York , N. Y. . 111 Adrian, E. D. & S. Gelfan 1933. Rhythmic activity in ske Ietal muscle fibers. J. Physiol. 78: 271. 112 Bulbring, E. 1955. Similarity between the behavior of striated muscle deficient in calcium and that of certain smooth muscle. J. Physiol. 129: 22 (P). 113 Douglas, W. W. & J. A. B. Gray 1953. The excitant action of acetylcholine and other substances on cutaneous sensory pathways and its prevention by hexamethonium and d-tubocurarine. J. Physiol. 119: 118. 114 Riker, W. F., Jr. & W. C. Wescoe 1951. The pharmacology of Flaxedil, with observations on certain analogs. Ann. N. Y. Acad. Sci. 54 (3): 373. 115 Sokoloff, L., R. Mangold, R. L. Wechlser, C. Kennedy & S. S. Kety 1955. Cited by S. S. Kety in Neuropharmacology: Trans. 1st. Conf. Josiah Macy, Jr. Found. New York , N. Y. : 56. 116 Clark, A. J. 1933. The Mode of Action of Drugs on Cells. E. Arnold & Co. London , England . 117a Clark, A. J. 1937. General pharmacology. In Heffter's Hdbch. exptl. Pharmakol. Erg. 4. Springer. Berlin , Germany . 117b Gaddum, T. H. 1953. Pharmacology. 4th ed. Oxford. New York , N. Y. 118 Dallemagne, J. & E. Philippot 1952. La déconnexion neuromkculaire. Acta Anaesthesiol. Belg. 3: 125. 119 Hoffman, B. F. & C. Y. Kao 1956. Graded responses in cardiac muscle. Federation Proc. 15: 94. 120 Altamirano, M. 1956. Local resnonse in an excitable membrane. Federation Proc. 16: 2. 121 Cannon, W. B. & A. Rosenblueth 1949. The Supersensitivity of Denervated Structures. A Law of Denervation. Macmillan. New York , N. Y. . 122 Brodal, A. 1948. Neurological Anatomy in Relation to Clinical Medicine. Clarendon. Oxford , England . 123 Jarcho, L. W., B. Berman, C. Eyzaguirre & J. L. Lilienthal, Jr. 1951. Curarization of denervated muscle. Ann. N. Y. Acad. Sci. 64 (3): 337. 123a Van Dyke, H. B. & R. G. Gustavson 1929. On the pregnancy response of the uterus of the cat. J. Pharmacol. Exptl. Therap. 37: 379. 123b Kennard, J. H. 1937. The reversal by progestin of the responses of the nonpregnant uterus of the cat. Am. J. Physiol. 118: 190. 124 Hutter, O. F. & W. R. Lowenstein 1955. Nature of neuromuscular facilitation by sympathetic stimulation in the frog. J. Physiol. 130: 559. 125 Marrazzi, A. S. 1939. Adrenergic inhibition at sympathetic synapses. Am. J. Physiol. 127: 738. 126 Cheymol, J., F. Bovrillet & C. Levassort 1955. Action anticurarimimétique de l'héparine et d'héparinoïdes de synthèse chez le lapin. J. Physiol. 47: 132. 127 Feldberg, W. 1954. Central and sensory transmission. Pharmacol. Revs. 6: 85. 128 Sechenov, I. 1863. Physiologische studien über die Hemmungsmechanismen für die Reflextätigkeit des Ruckenmarks in Gehirne des Frosches. In Selected Works. 1935. 15th Intern. Physiol. Congr. State Publ. House. Moscow . U. S. S. R. 129 Magoun, H. W. 1950. Caudal and cephalic influences of the brain stem reticular formation. Physiol. Revs. 30: 459. 130 Hunt, J. R. 1931. A theory of the mechanism underlying inhibition in the central nervous system and its relation to convulsive manifestaéoni. Research Publs. Assoc. Research Nervous Mental Disease. 7: 45. 131 de Castro, F. 1951. Aspects anatomiques de la transmission synaptique chez les mammifères. Arch. intern. physiol. 59: 479. 132 Dale, H. H. & J. H. Gaddum Reactions of denervated voluntary muscle and their bearing on the mode of action of parasympathetic and related nerves. J. Physiol. 70: 109. 133 Fatt, P. 1954. Biophysics of junctional transmission. Physiol. Revs. 34: 674. 134 Feldberg, W., J. A. B. Gray & W. L. M. Perry 1953. Effects of close arterial injections of acetylcholine on the activity of the cervical spinal cord of the cat. J. Physiol. 119: 428. 135 Bernhard, C. G., J. A. B. Gray & L. Widén 1953. The difference in response of monosynaptic extensor and monosynaptic flexor reflexes to d-tubocurarine and adrenaline. Acta Physiol. Scand. 29 (Suppl. 106): 73. 136 Wilson, V. J. 1956. Effect of intra-arterial injections of epinephrine on spinal flexor and extensor reflexes. Federation Proc. 15: 201. 137 Phillips, C. G. 1956. Intracellular records from Betz cells in the cat. Quart. J. Exptl. Physiol. 41: 58. 138 Phillips, C. G. 1956. Cortical motor threshold and the thresholds and distribution of excited Betz cells in the cat. Quart. J. Exptl. Physiol. 41: 70. 139 Li, C. L. & H. Jasper 1953. Microelectrode studies of the electrical activity of the cerebral cortex in the cat. J. Physiol. 121: 117. 140 Li, C. L. 1955. Action and resting potentials of cortical neurons. J. Physiol. 130: 96. 141 Li, C. L. 1955. The facilitatory effect of stimulation of an unspecific thalamic nucleus on cortical sensory neuronal responses. J. Physiol. 131: 115. 142 Li, C. L., C. Cullen & H. Jasper 1956. Laminar microelectrode studies of specific somatosensory evoked cortical potentials. J. Neurophysiol. 19: 11. 142a Li, C. L., C. Cullen & H. Jasper 1956. Liminar microelectrode analysis of cortical unspecific recruiting responses and spontaneous rhythms. J. Neurophysiol. 19: 131. 142b Albe-Fessard, D. & P. Buser 1953. Explorations de certaines activités du cortex moteur du chat par microélectrodes: dérivations endosomatiques. J. physiol. Paris. 45: 14. 142c Albe-Fessard, D. & P. Buser 1955. Activités intracellulaires recueillies dans le cortex sigmoïde du chat: participation des neurones pyramidaux au “potentiel évoqué” somesthésique. J. physiol. Paris. 47: 1. 143 Brodal, A. & F. Walberg 1952. Ascending fibers in pyramidal tract of cat. Arch. Neurol. Psychiat. 68: 755. 144 Grundfest, H. & D. P. Purpura 1956. The postsynaptic potentials of cat cortical dendrites. 20th Intern. Physiol. Congr. p. 374. 145a Purpura, D. P. & H. Grundfest 1956. Nature of dendritic potentials and synaptic mechanisms in cerebral cortex of cat. J. Neurophysiol. 19: 573–595. 145b Purpura, D. P. & H. Grundfest 1956. Synaptic organization of cerebral and cerebellar cortex (cat). Am. J. Physiol. In press. 146 Adrian, E. D. 1936. The spread of activity in the cerebral cortex. J. Physiol. 88: 127. 147 Chang, H. T. 1951. Dendritic potentials of cortical neurons produced by direct electrical stimulation of the cerebral cortex. J. Neurophysiol. 14: 1. 148 Clare, M. H. & G. H. Bishop 1955. Properties of dendrites; apical dendrites of the cat cortex. Electroencephalog, and Clin. Neurophysiol. 7: 85. 149 Patton, H. D. & V. E. Amassian 1954. 1954. and multiple unit analysis of cortical stage of pyramidal tract activation. J. Neurophysiol. 17: 345. 150 Eccles, J. C. 1951. Interpretation of action potentials evoked in the cerebral cortex. EEG & Clin. Neurophysiol. 3: 449. 151 Ostow, M. & F. Garcia Effect of curare on cortical responses evoked by afferent stimulation. J. Neurophysiol. 4: 225. 152 Geiger, A., J. Magnes & H. Grundfest Unpublished experiments. 153 Chang, H. T. 1953 Similarity in action between curare and strychnine on cortical neurons. J. Neurophysiol. 16: 221. 154 Wright, S. 1955. Electroencephalographic patterns following intraventricular injections of tubocurarine in the cat. J. Physiol. 130: 35P. 155 Goldring, S. & J. L. O'Leary 1954. Correlation between steady transcortical potential and evoked response. Electroencephalog, and Clin. Neurophysiol. 6: 189. 156 Bremer, F. & V. Bonnet 1953. L'activité convulsive du cervelet. J. physiol. Paris. 46: 53. 157a Dow, R. S. 1938. The electrical activity of the cerebellum and its functional significance. J. Physiol. 94: 67. 157b Granit, K. & C. G. Phillips 1956. Two types of inhibition of cerebellar Purkinje cells. T. Physiol. 132: 58P. 158 Perry, W. L. M. 1956. Central and synaptic transmission (pharmacological aspects). Ann. Revs. Physiol. 18: 279. 159 Geiger, A. & S. S. Yamasaki 1956. Cytidine and uridine requirement of the brain. Federation Proc. 15: 71. 160 Harris, G. W. 1955. Neural Control of the Pituitary Gland. Arnold. London , England . 161 Von Euler, U. S. 1956. Noradrenaline. C. C. Thomas. Springfield , Ill. 162 Bacq, Z. M. & A. M. Monnier 1935. Recherches sur la physiologie et la pharmacologie du système nerveux autonome. XV. Variations de la polarization des muscles lisses sous l'influence du système nerveux autonome et de ses mimétiques. Arch. intern. physiol. 40: 467. 163 Monnier, A. M. 1936. Physical and chemical aspects of neuromuscular transmission. Cold Spring Harbor Symposia Quant. Biol. 4: 111. 164 Brown, G. L. 1937. The actions of acetylcholine on denervated mammalian and frog's muscle. J. Physiol. 89: 438. 165 Brown, G. L. & A. M. Harvey 1938. Reactions of avian muscles to acetylcholine and eserine. J. Physiol. 94: 101. 166 Brown, G. L. 1950. Excitatory and inhibitory effects of the chemical mediators. Proc. Roy. Soc. London. B. 137: 303. 167 Feldberg, W. 1951. The physiology of neuromuscular transmission and neuromuscular block. Brit. Med. J. 1: 967. Citing Literature Volume66, Issue3The Pharmacology of Psychotomimetic and Psychotherapeutic DrugsMarch 1957Pages 537-591 ReferencesRelatedInformation