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• W1511437699 abstract "Experimental PhysiologyVolume 86, Issue 6 p. 797-801 Free Access Physiological Society Symposium – Vagal Control: From Axolotl to Man Vagal control of the rat heart James F. X. Jones, Corresponding Author James F. X. Jones Department of Human Anatomy and Physiology, University College Dublin, Earlsfort Terrace, Dublin 2, Ireland Email: [email protected]Search for more papers by this author James F. X. Jones, Corresponding Author James F. X. Jones Department of Human Anatomy and Physiology, University College Dublin, Earlsfort Terrace, Dublin 2, Ireland Email: [email protected]Search for more papers by this author First published: 04 April 2005 https://doi.org/10.1111/j.1469-445X.2001.tb00047.xCitations: 23 Presented at the Oxford Meeting of the Physiological Society in March 2001. 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 References Anrep, G. V., Pascual, W. & Rossler, R. (1936a). Respiratory variations of the heart rate. I. The reflex mechanism of the respiratory arrhythmia. Proceedings of the Royal Society B 119, 191– 217. Anrep, G. V., Pascual, W. & Rossler, R. (1936b). Respiratory variations of the heart rate. II. The central mechanism of respiratory arrhythmia and the inter-relationships between central and reflex mechanisms. Proceedings of the Royal Society B 119, 218– 230. Baluk, P. & Gabella, G. (1987). Fine structure of the autonomic ganglia of the mouse pulmonary vein. Journal of Neurocytology 16, 169– 184. Cheng, Z. & Powley, T. L. (2000). Nucleus ambiguus projections to cardiac ganglia of rat atria: an anterograde tracing study. Journal of Comparative Neurology 424, 588– 606. Cheng, Z., Powley, T. L., Schwaber, J. S., Doyle, F. J. (1999). Projections of the dorsal motor nucleus of the vagus to cardiac ganglia of rat atria: an anterograde tracing study. Journal of Comparative Neurology 410, 320– 341. Daly, M. De B. (1991). Some reflex cardioinhibitory responses in the cat and their modulation by central inspiratory neuronal activity. Journal of Physiology 439, 559– 577. Daly, M. De B. & Kirkman, E. (1989). Differential modulation by pulmonary stretch afferents of some reflex cardioinhibitory responses in the cat. Journal of Physiology 417, 323– 341. Endo, H., Mifune, H., Kurohmaru, M. & Hayashi, Y. (1994). Cardiac musculature of the cranial vena cava in the rat. 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P., Jordan, D., Richter, D. W. & Spyer, K. M. (1984). Synaptic mechanisms involved in the inspiratory modulation of vagal cardio-inhibitory neurones in the cat. Journal of Physiology 356, 65– 78. Halpern, M. H. (1957). The dual supply of the rat heart. American Journal of Anatomy 101, 1– 16. Hashizume, H., Tango, M. & Ushiki, T. (1998). Three-dimensional cytoarchitecture of rat pulmonary venous walls: a light and scanning electron microscopic study. Anatomy and Embryology 198, 473– 480. Heymans, C. & Neil, E. (1958). Reflexogenic Areas of the Cardiovascular System. Churchill Ltd, London . Hopkins, D. A., Gootman, P. N., Gootman, N., Dirusso, S. M. & Zeballos, M. E. (1984). Brainstem cells of origin of the cervical vagus and cardiopulmonary nerves in the neonatal pig (Sus scrofa). Brain Research 306, 63– 72. Izzo, P. N., Deuchars, J. & Spyer, K. M. (1993). Localization of cardiac vagal preganglionic motoneurones in the rat: immunocytochemical evidence of synaptic inputs containing 5-hydroxytryptamine. Journal of Comparative Neurology 327, 572– 583. Izzo, P. N. & Jones, J. F. X. (1994). Identification of vagal efferent fibres and their putative target neurones in cardiac ganglia of the anaesthetized rat. Journal of Physiology 481.P, 14 P. Jones, J. F. X. & Daly, M. DE B. (1997). Reflex cardiac dromotropic responses to stimulation of the carotid and aortic chemoreceptors in the anaesthetized cat. Journal of Physiology 502, 461– 467. Jones J. F. X., Ford, T. W. & Spyer, K. M. (1999). Projections from the nucleus ambiguus to the cardiac ganglia of the rat. Journal of Physiology 521.P, 47– 48 P. Jones J. F. X., Wang, Y. & Jordan, D. (1995). The action of cardiac vagal C-fibres on heart rate in the anaesthetised cat, rat and rabbit. Journal of Physiology 489, 203– 214. Jones, J. F. X., Wang, Y. & Jordan, D. (1998). Activity of C-fibre cardiac vagal efferents during the pulmonary chemoreflex in anaesthetized cats and rats. Journal of Physiology 507, 869– 880. Jourdan, F. & Nowak, S. J. G. (1936). Etude experimentale chez le chien des fibres cardio-acceleratrices du vague. Archive of International Pharmacodynamics 53, 121– 135. Langdon, M. G., Nolan, P., Jones, J. F. X. & O'REGAN, R. G. (1996). The effect of upper airway negative pressure on atrio-ventricular conduction time in the anaesthetized paralysed rabbit. Journal of Physiology 494.P, 101P. Levy, M. N., MARTIN, P. J., IANO, T. & ZIESKE, H. (1969). Paradoxical effect of vagus nerve stimulation on heart rate in dogs. Cardiovascular Research 25, 303– 314. Mcallen, R. M. & Spyer, K. M. (1978a). Two types of cardiac vagal preganglionic motoneurones projecting to the heart and lungs. Journal of Physiology 282, 353– 364. Mcallen, R. M. & Spyer, K. M. (1978b). The baroreceptor input to cardiac vagal motoneurones. Journal of Physiology 282, 365– 374. Mcwilliam, P. N. & Wooley, D. C. (1990). The effect of supranodose vagotomy on the hexamethonium-resistant bradycardia in the anaesthetized rabbit. Journal of the Autonomic Nervous System 29, 227– 230. Masani, F. (1986). Node-like cells in the myocardial layer of the pulmonary vein of rats: an ultrastructural study. Journal of Anatomy 145, 133– 142. Massari, J. V., Johnson, T. A. & Gatti, P. J. (1995). Cardiotopic organization of the nucleus ambiguus? An anatomical and physiological analaysis of neurons regulating atrioventricular conduction. Brain Research 679, 227– 240. Middleton, S., Middleton, H. H. & Grundfest, H. (1950). Spike potentials and cardiac effects of mammalian vagus nerve. American Journal of Physiology 162, 545– 552. O'shea, J. E. & Evans, B. K. (1985) Innervation of bat heart: cholinergic and adrenergic nerves innervate all chambers. American Journal of Physiology 249, H876– 882. Paes DE Almeida, O., Bohm, C. M., DE Paula Carvalho, M. & Paes DE Carvalho, A. (1975) The cardiac muscle in the pulmonary vein of the rat: a morphological and electro-physiological study. Journal of Morphology 145, 409– 433. Perez, M. G. & Jordan, D. (2001). Effect of stimulating non-myelinated vagal axons on atrio-ventricular conduction and left ventricular function in anaesthetized rabbits. Autonomic Neuroscience: Basic and Clinical 86, 183– 191. Potter, E. K. (1981). Inspiratory inhibition of vagal responses to baroreceptor and chemoreceptor stimuli in the dog. Journal of Physiology 316, 177– 190. Schafer, E. A. (1900). In Textbook of Physiology, vol. II, ed. E. A. Schafer, p. 54. Pentland, Edinburgh . Shvilkin, A., Danilo, P., Chevalier, P., Chang, F., Cohen, I. S. & Rosen, M. R. (1994). Vagal release of vasoactive intestinal peptide can promote vagotonic tachycardia in the isolated innervated rat heart. Cardiovascular Research 28, 1769– 1773. Sugimoto, T., Itoh, K., Mizuno, N., Nomura, S. & Konishi, A (1979). The site of origin of cardiac preganglionic fibres of the vagus nerve: an HRP study in the cat. Neuroscience Letters 12, 53– 58. Wang, Y., Jones, J. F. X., Jeggo, R. D., Daly, M. DE B., Jordan, D. & Ramage, A. G. (2000). Effect of pulmonary C-fibre afferent stimulation on cardiac vagal neurones in the nucleus ambiguus in anaesthetized cats. Journal of Physiology 526, 157– 165. Citing Literature Volume86, Issue6November 2001Pages 797-801 ReferencesRelatedInformation" @default.
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