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Inspiratory on-switch evoked by stimulation of the mesencephalon: Activity of phrenic and laryngeal motoneurones

Experimental Brain Research volume 55pages 197–204 (1984)Cite this article

Summary

In anaesthetized cats (chloralose-urethan) the effects of brief tetanic electrical stimulation (50 to 100 ms) of the mesencephalic central gray matter and reticular formation on the inspiratory on-switch were studied during the expiratory (E) phase on the gross and unitary activities of phrenic, laryngeal inspiratory and laryngeal expiratory nerves. On the inspiratory laryngeal and phrenic nerves, stimulation elicited a short latency gross response concomitant with the train: the inspiratory Primary Response (Prim.R.) which is followed by an inspiratory Patterned Response (Patt.R.) of longer duration which corresponded to the inspiratory on-switch. The Patt.R. generally appeared from the Prim.R. within a latent period (Silent Phase: Sil.P.) as long as 100 ms. On the expiratory laryngeal nerve, stimulation elicited a brief activation (expiratory Prim.R.) concomitant with the beginning of the inspiratory laryngeal Prim.R. and which rapidly stopped as the latter continued during the stimulus train. The inspiratory Prim.R. corresponded to a simultaneous activation of both early and late (so defined during their spontaneous discharge) inspiratory motoneurones. The laryngeal motoneurones were more strongly activated than the phrenic ones. During the inspiratory Patt.R. all the phrenic motoneurones presented a recruitment delay earlier, compared with the spontaneous one, whereas the recruitment drastically changed from an inspiratory laryngeal motoneurone to another. Thus, the two pools of motoneurones presented different properties of activation. During the inspiratory Sil.P. no concomitant expiratory laryngeal activation was observed when most of the inspiratory motoneurones were inactive. As some inspiratory laryngeal motoneurones did not stop firing, the existence of some central respiratory neurones exhibiting a similar persistent activity and subserving the inspiratory on-switch mechanisms may be hypothesized.

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References

  • Barillot JC, Dussardier M (1973) Modalités de décharge des motoneurones laryngés inspiratoires dans diverses conditions expérimentales. J Physiol (Paris) 66: 593–629

    Google Scholar 

  • Barillot JC, Dussardier M (1976) Activité des motoneurones laryngés expiratoires. J Physiol (Paris) 72: 311–343

    Google Scholar 

  • Bassal M, Bianchi AL (1981) Effets de la stimulation des structures nerveuses centrales sur les activités respiratoires efférentes chez le chat. II: Réponse à la stimulation souscorticale. J Physiol (Paris) 77: 759–777

    Google Scholar 

  • Bassal M, Bianchi AL (1982) Inspiratory onset or termination induced by electrical stimulation of the brain. Respirat Physiol 50: 23–40

    Google Scholar 

  • Bassal M, Bianchi AL, Dussardier M (1981) Effet de la stimulation des structures nerveuses centrales sur l'activité des neurones respiratoires chez le chat. J Physiol (Paris) 77: 779–795

    Google Scholar 

  • Berman AL (1968) The brain stem of the cat. A cytoarchitectonic atlas with stereotaxic coordinates. University of Wisconsin Press, Madison Milwaukee London

    Google Scholar 

  • Bertrand F, Hugelin A (1971) Respiratory synchronizing function of nucleus parabrachialis medialis: pneumotaxic mechanisms. J Neurophysiol 34: 189–207

    Google Scholar 

  • Bianchi AL (1971) Localisation et étude des neurones respiratoires bulbaires. Mise en jeu antidromique par stimulation spinale ou vagale. J Physiol (Paris) 63: 5–40

    Google Scholar 

  • Cohen MI (1971) Switching of the respiratory phases and evoked phrenic responses produced by rostral pontine electrical stimulation. J Physiol (Lond) 217: 133–158

    Google Scholar 

  • Cohen MI (1981a) Central determinants of respiratory rhythm Ann Rev Physiol 43: 91–104

    Google Scholar 

  • Cohen MI (1981b) How is respiratory rhythm generated? Fed Proc 40: 2372–2377

    Google Scholar 

  • Cohen MI, Piercey MF, Gootman PM, Wolotsky P (1974) Synaptic connections between medullary inspiratory neurons and phrenic motoneurons as revealed by cross-correlation. Brain Res 81: 319–324

    Google Scholar 

  • Gauthier P, Barillot JC, Dussardier M (1980) Mise en évidence d'interactions d'origine centrale entre motoneurones laryngés. J Physiol (Paris) 76: 647–661

    Google Scholar 

  • Gauthier P, Hilaire G, Monteau R (1983a) Onset and control of expiratory laryngeal discharge: cross-correlation analysis. Respirat Physiol 54: 67–77

    Google Scholar 

  • Gauthier P, Monteau R, Dussardier M (1983b) Inspiratory onswitch evoked by stimulation of mesencephalic structures: a patterned response. Exp Brain Res 51: 261–270

    Google Scholar 

  • Hilaire G, Monteau R, Dussardier M (1972) Modalité de recrutement des motoneurones phréniques. J Physiol (Paris) 64: 457–478

    Google Scholar 

  • Hilaire G, Monteau R (1976) Connexion entre les neurones inspiratoires bulbaires et les motoneurones phréniques et intercostaux. J Physiol (Paris) 72: 759–777

    Google Scholar 

  • Hilaire G, Gauthier P, Monteau R (1983) Central respiratory drive and recruitment order of phrenic and inspiratory laryngeal motoneurones. Respirat Physiol 51: 341–359

    Google Scholar 

  • Hockman CH, Duffin J, Rupert AH, Vachon BR (1974) Phase switching of respiration induced by central gray and hypocampal stimulation in the cat. J Neural Transm 35: 327–335

    Google Scholar 

  • Mitchell RA, Herbert DA (1974a) The effect of carbon dioxide on the membrane potential of medullary respiratory neurons. Brain Res 75: 345–349

    Google Scholar 

  • Mitchell RA, Herbert DA (1974b) Synchronized high frequency synaptic potentials in medullary respiratory neurons. Brain Res 75: 350–355

    Google Scholar 

  • Monteau R, Gauthier P (1980) Activité des neurones inspiratoires au cours du déclenchement du programme inspiratoire bulbaire. J Physiol (Paris) 76: 57A

  • Monteau R, Hilaire G (1977) Recyclage de l'inspiration et polypnée obtenus par stimulation électrique de l'hypothalamus. J Physiol (Paris) 73: 1057–1079

    Google Scholar 

  • Monteau R, Gauthier P, Hilaire G (1982) Complexité fonctionnelle des prémotoneurones inspiratoires. J Physiol (Paris) 78: 60 A

    Google Scholar 

  • Orem J, Lydic R, Norris P (1979) Experimental control of the diaphragm and laryngeal abductor muscle by brain stem arousal systems. Respirat Physiol 38: 203–221

    Google Scholar 

  • Richter DW, Camerer H, Meesmann M, Röhrig N (1979) Studies on the synaptic interconnection between bulbar respiratory neurones of cats. Pflügers Arch 380: 245–257

    Google Scholar 

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Affiliations

  1. Département de Physiologie et Neurophysiologie, Faculté des Sciences et Techniques, St Jérôme, Rue Henri Poincaré, F-13397, Marseille Cedex 13, France

    P. Gauthier, R. Monteau & G. Hilaire

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  1. P. Gauthier
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  2. R. Monteau
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  3. G. Hilaire
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Additional information

Supported by CNRS (LA 205 and ATP n∘ 4188) and Fondation pour la Recherche Médicale

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Gauthier, P., Monteau, R. & Hilaire, G. Inspiratory on-switch evoked by stimulation of the mesencephalon: Activity of phrenic and laryngeal motoneurones. Exp Brain Res 55, 197–204 (1984). https://doi.org/10.1007/BF00237270

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  • DOI: https://doi.org/10.1007/BF00237270

Key words

  • Phrenic and laryngeal motoneurones
  • Inspiratory on-switch
  • Stimulation
  • Mesencephalic structures
  • Patterned response
  • Cat