Influences d'origine cardio-vasculaire et respiratoire sur l'activité somatique

• Baccelli, G., M. Guazzi, A. Libretti etA. Zanchetti, Effects of presso- and chemoceptive components of the cat's aortic nerve on sham rage behavior. Experientia, Basel,19 (1963), 534–535.

  Google Scholar 

• Bard, P. A., A diencephalic mechanism for the expression of rage with special reference to the sympathetic nervous system. Amer. J. Physiol.84 (1928), 490–515.

  Google Scholar 

• Bartorelli, C., E. Bizzi, A. Libretti etA. Zanchetti, Inhibitory control of sinocarotid pressoceptive afferents on hypothalamic autonomic activity and sham rage behavior. Arch. ital. Biol.98 (1960), 308–326.

  Google Scholar 

• Baumgartner, G., O. Creutzfeldt etR. Jung, Microphysiology of cortical neurones in acute anoxia and in retinal ischemia. In:Gastaut, H. H., andJ. S. Meyer, Cerebral anoxia and the electroencephalogram. 5–34, C. C. Thomas. Publisher, Springfield, 1961.

  Google Scholar 

• Bizzi, E., A. Malliani, J. Apelbaum etA. Zanchetti, Excitation and inhibition of sham rage behavior by lower brain stem stimulation. Arch. ital. Biol.101 (1963), 614–631.

  PubMed  Google Scholar 

• Bonvallet, M., etM. B. Allen, jr., Localisation de formations bulbaires intervenant dans le contrôle de différentes manifestations de l'activité réticulaire. Compt. rend. Soc. biol., Paris,156 (1962), 597–601.

  Google Scholar 

• Bonvallet, M., etM. B. Allen, jr., Prolonged spontaneous and evoked reticular activation following discrete bulbar lesions. Electroencephalogr.15 (1962), 969–988.

  Google Scholar 

• Bonvallet, M., etV. Bloch, Le contrôle bulbaire des activations corticales et sa mise en jeu. Compt. rend. Soc. biol., Paris,154 (1960), 1428–1431.

  Google Scholar 

• Bonvallet, M., etV. Bloch, Bulbar control of cortical arousal. Science133 (1961), 1133–1134.

  Google Scholar 

• Bonvallet, M., P. Dell etG. Hiebel, Tonus sympathique et activité électrique corticale. Electroencephalogr.6 (1954), 119–144.

  Google Scholar 

• Bonvallet, M., etA. Hugelin, Influence de la formation réticulaire et du cortex cérébral sur l'excitabilité motrice au cours de l'hypoxie. Electroencephalogr.13 (1961), 270–284.

  Google Scholar 

• Bonvallet, M., etB. Sigg, Etude électrophysiologique des afférences vagales au niveau de leur pénétration dans le bulbe. J. physiol., Paris,50 (1958), 63–74.

  Google Scholar 

• Bremer, F., etJ. Thomas, Action de l'anoxie, de l'hypercapnie et de l'acapnie sur l'activité électrique du cortex cérébral. Compt. rend. Soc. biol., Paris,123 (1936), 1256–1260.

  Google Scholar 

• Brodal, A., T. Szabo etA. Torvik, Corticofugal fibers to sensory trigeminal nuclei and nucleus of solitary tract. An experimental study in the cat. J. Comp. Neurol., Philadelphia,106 (1956), 527–556.

  Google Scholar 

• Cannon, W. B., Bodily changes in pain, hunger, fear and rage. An account of recent researches into function of emotional excitement. Appleton and Co., London, 1929, 404 pp.

  Google Scholar 

• Caspers, H. H., Die Veränderungen der corticalen Gleichspannung und ihre Beziehungen zur senso-motorischen Aktivität (Verhalten) bei Weckreizungen am freibeweglichen Tier. Proc. int. Union physiol. Sci., XII. int. Congr., Leiden,1 (1962), 443–447.

  Google Scholar 

• Chapot, G., A. Hugelin etJ. Verroust, Influence des centres respiratoires et de PaCO₂ sur les réflexes masticateurs. J. physiol., Paris,55 (1963), 225.

  Google Scholar 

• Clemente, C. D., J. Sutin etJ. T. Silverstone, Changes in electrical activity of the medulla on the intravenous injection of hypertonic solutions. Amer. J. Physiol.188 (1957), 193–198.

  PubMed  Google Scholar 

• Clemente, C. D., etV. L. Van Breemen, Nerve fibers in the area postrema of cat, rabbit, guinea pig and rat. Anat. Rec., Philadelphia,123 (1955), 65–79.

  Google Scholar 

• Comroe, J. H., jr., The peripheral chemoreceptors. In:Fenn, W. O., andH. Rahn, Handb. of Physiology, Section 3, Respiration, vol. I, Amer. physiol. Soc., Washington, D. C., 926 pp.,23 (1964), 557–583.

  Google Scholar 

• Cordeau, J., etM. Mancia, Evidence for the existence of an electroencephalographic synchronization mechanism originating in the lower brain stem. Electroencephalogr.11 (1959), 551–564.

  Google Scholar 

• Cottle, M. K., Degeneration studies of primary afferents of IXth and Xth cranial nerves in the Cat. J. Comp. Neurol., Philadelphia,122 (1964), 329–345.

  Google Scholar 

• Creutzfeldt, O., J. Bark etG. H. Fromm, Alterations in activity in cortical neurones during anesthesia compared with hypoxia. In:Gastaut, H. H., andJ. S. Meyer, Cerebral anoxia and the electroencephalogram. 35–45, C. C. Thomas, Publisher, Springfield, 1961.

  Google Scholar 

• Creutzfeldt, O., A. Kasamatsu etA. Vaz-Ferreira, Aktivitätsänderung einzelner corticaler Neurone im akuten Sauerstoffmangel und ihre Beziehungen zum EEG bei Katzen. Pflügers Arch. Physiol.263 (1957), 647–667.

  Google Scholar 

• D'Anna, L., etM. Bonvallet, Modifications de l'activité réticulaire consécutives à l'interruption de différentes voies de conduction spinale. A paraître en 1965.

• Dell, P., Corrélations entre le système végétatif et le système de la vie de relation. Mésencéphale, diencéphale et cortex cérébral. J. physiol., Paris,44 (1952), 471–557.

  Google Scholar 

• Dell, P., Some basic mechanisms of the translation of bodily needs into behaviour. In: Ciba Foundation Symposium on Neurological basis of behaviour, London, 1959, 187–201.

• Dell, P., M. Bonvallet etA. Hugelin, Tonus sympathique, adrénaline et contrôle réticulaire de la motricité spinale. Electroencephalogr.6 (1954), 599–618.

  Google Scholar 

• Dell, P., etY. Padel, Endormissement rapide provoqué par la stimulation sélective d'afférences vagales chez le chat. Rev. neurol., Paris,111 (1964), 381.

  Google Scholar 

• Desmedt, J. E., etG. La Grutta, The selective inhibition of pseudo-cholinesterase on the spontaneous and evoked activity of the cat's cerebral cortex. J. Physiol., London,136 (1957), 20–40.

  Google Scholar 

• Douglas, W. W., etW. Schaumann, A study of the depressor and pressor components of the cat's carotid sinus and aortic nerves using electrical stimuli of different intensities and frequences. J. Physiol., London,132 (1956), 173–186.

  Google Scholar 

• Gauer, O. H., etJ. P. Henry, Circulatory basis of fluid volume control. Physiol. Rev., Baltimore,43 (1963), 423–481.

  Google Scholar 

• Grastyán, E., T. Hasznos, K. Lissák, L. Molnár etZ. Ruzsonyi, Activation of the brain stem activating system by vegetative afferents. Acta physiol. hung.3 (1952), 103–122.

  PubMed  Google Scholar 

• Heymans, C., etE. Neil, Reflexogenic areas of the cardiovascular system. 270 pp., Churchill, Ed., London, 1958.

  Google Scholar 

• Hugelin, A., etM. Bonvallet, Tonus cortical et contrôle de la facilitation motrice d'origine réticulaire. J. physiol., Paris,49 (1957a), 1171–1200.

  Google Scholar 

• Hugelin, A., etM. Bonvallet, Etude expérimentale des interrelations réticulo-corticales. Proposition d'une théorie de l'asservissement réticulaire à un système diffus cortical. J. physiol., Paris,49 (1957b), 1201–1223.

  Google Scholar 

• Hugelin, A., etM. Bonvallet, Analyse des post-décharges réticulaires et corticales engendrées par des stimulations électriques réticulaires. J. physiol., Paris,49 (1957c), 1225–1234.

  Google Scholar 

• Hugelin, A., etM. Bonvallet, Effets moteurs et corticaux d'origine réticulaire au cours des stimulations somesthésiques. Rôle des interactions cortico-réticulaires dans le déterminisme du réveil. J. physiol., Paris,50 (1958), 951–977.

  Google Scholar 

• Hugelin, A., M. Bonvallet etP. Dell, Activation réticulaire et corticale d'origine chémoceptive au cours de l'hypoxie. Electroencephalogr.11 (1959), 325–340.

  Google Scholar 

• Hugelin, A., etM. I. Cohen, The reticular activating system and respiratory regulation in the cat. Ann. N. Y. Acad. Sc.109 (1963), 586–603.

  Google Scholar 

• Kleitman, N., Sleep and wakefulness. Published Ist. 1939, revised and enlarged Ed., Univ. of Chicago Press, Chicago and London, 1963, 552 pp.

  Google Scholar 

• Koch, E., Irradiation der pressorezeptorischen Kreislaufreflexe auf das animale Nervensystem. Zschr. Kreisl.forsch.24 (1932a), 251–258.

  Google Scholar 

• Koch, E., Die Irradiation der pressorezeptoren Kreislaufreflexe. Klin. Wschr.11 (1932b), 225–227.

  Google Scholar 

• Magnes, J., G. Moruzzi etO. Pompeiano, EEG synchronizing structures in the lower brain stem. In: The nature of sleep. Ciba Foundation Symposium, ed. by Churchill, London, 1960, 416 pp., 57–85.

• Magnes, J., G. Moruzzi etO. Pompeiano, Synchronization of the EEG produced by low-frequency electrical stimulation of the region of the solitary tract. Arch. ital. Biol.99 (1961), 33–67.

  Google Scholar 

• Magoun, H. W., etR. Rhines, An inhibitory mechanism in the bulbar reticular formation. J. Neurophysiol., Springfield,9 (1946), 165–171.

  Google Scholar 

• Minvielle, J., Sinus carotidien et fonctions cérébrales. Effets cliniques et électroencéphalographiques de l'excitation et de l'anesthésie sino-carotidienne. Montpellier méd.51 (1957), 258.

  Google Scholar 

• Moruzzi, G., Synchronizing influences of the brain stem and the inhibitory mechanisms underlying the production of sleep by sensory stimulation. Moscow Symposium, 1958, in: Electroencephalogr., suppl. 13 (1960), 231–256.

• Moruzzi, G., Active processes in the brain stem during sleeping. Harvey Lectures58 (1963), 233–297.

  PubMed  Google Scholar 

• Oberholzer, R. J. H., Afferent fibers of cardiovascular and pulmonary origins and their bulbar connections (a review). Tohoku J. Exper. Med.80 (1962), 288–314.

  Google Scholar 

• Padel, Y., etP. Dell, Activités centrales affectant la réception et la transmission des messages visuels. J. physiol., Paris,56 (1964), 415–416.

  Google Scholar 

• Padel, Y., etP. Dell, Effects bulbaires et réticulaires des stimulations endormantes du tronc vago-aortique. J. physiol., Paris,57 (1965), 269–270.

  Google Scholar 

• Pinotti, O., etL. Granata, Azione inibitrice dei pressocettori carotidei sull'attività motoria, spontanea e riflessa, nel cane. Arch. sc. biol., Bologna,39 (1955), 59–71.

  Google Scholar 

• Schulte, F. J., G. Busch etH. D. Henatsch, Antriebssteigerungen lumbaler Extensor-Motoneurone bei Aktivierung der Chemoreceptoren im Glomus caroticum. Pflügers Arch. Physiol.269 (1959), 580–592.

  Google Scholar 

• Schulte, F. J., H. D. Henatsch etG. Busch, Über den Einfluß der Carotissinus-Sensibilität auf die spinalmotorischen Systeme. Pflügers Arch. Physiol.269 (1959), 248–263.

  Google Scholar 

• Schweitzer, A., Die Irradiation autonomer Reflexe. Untersuchungen zur Funktion des autonomen Nervensystems. Karger, Basel, 1937.

  Google Scholar 

• Sugar, D., etR. W. Gerard, Anoxia and brain potentials. J. Neurophysiol., Springfield,1 (1938), 558–573.

  Google Scholar 

• Torvik, A., Afferent connections to the sensory trigeminal nuclei, the nucleus of the solitary tract and adjacent structures. An experimental study in the cat. J. Comp. Neurol., Philadelphia,106 (1956), 51–132.

  Google Scholar 

• Uvnäs, B., Central cardiovascular control. In: Field, J., and H. W. Magoun, Handb. of Physiology, Section I: Neurophysiology, vol. 2, Amer. physiol. Soc., Publ. Washington, D. C., 1960, 1131–1162.

  Google Scholar 

• Uvnäs, B., Sympathetic vasodilatator. Physiol. Rev., Baltimore,40 (1960), 69–76.

  Google Scholar 

Download references