Letters “a” and “r” appearing before authors' initials refer to target article and response respectively.
Abelli, L., Conte, B., Somma, V., Maggi, C. A., Giuliani, S., Geppetti, P., Alessandri, M., Theodorsson, E. & Meli, A. (1988) The contribution of capsaicin-sensitive sensory nerves to xylene-induced visceral pain in conscious, freely moving rats. Naunyn Schmiedeberg’s Archives of Pharmacology 337:545–51. {CAM}
Ader, R. & Cohen, N. (1985) CNS-immune system interactions: Conditioning phenomena. Behavioral and Brain Sciences 8:379–95. {DLF}
Agostoni, E., Chinnock, J. E., De Burgh Daly, M. & Murray, J. G. (1957) Functional and histological studies of the vagus nerve and its branches to the heart, lungs and abdominal viscera in the cat. Journal of Physiology (London) 135:182–205. {SH}
Ahlman, B. H. J., Larson, G. M., Bombeck, C. T. & Nyhus, I. M. (1979) Origin of the adrenergic fibers in the subdiaphragmatic vagus in the dog. American Journal of Surgery 137:116–22. {aJCP}
Altman, J. & Bayer, S. A. (1984) The development of the spinal cord. Advances in Anatomy, Embryology, and Cell Biology 85:1–166. {aJCP}
Amann, R. & Lembeck, F. (1986) Capsaicin-sensitive afferent neurons from peripheral glucose receptors mediate the insulin-induced increase in adrenaline secretion. Naunyn Schmiedebergs Archives of Pharmacology 334:71–76. {DPY}
Andres, K. H. (1961) Untersuchungen über den Feinbau von Spinalganglien. Zeitschrift fur Zellforschung 55:1–48. {arJCP}
Andrews, P. L. R. (1986) Vagal afferent innervation of the gastrointestinal tract. Progress in Brain Research 67:65–86. {PLRA, DG, SH}
Andrews, P. L. R., & Hawthorn, J. (1987) The neurophysiology of vomiting. Clinical Gastroenterology, 2:141–68. {PLRA}
Anokhin, P. K. (1968) Biology and neurophysiology of conditioned reflex. Meditzina. {VGZ}
Ariens Kappers, C. U., Huber, G. C. & Crosby, E. C. (1967) The comparative anatomy of the nervous system of vertebrates, including man, vol I. Hafner. {rJCP}
Bahr, R., Blumberg, H. & Janig, W. (1981) Do dichotomizing afferent fibers exist which supply visceral organs as well as somatic structures? A contribution to the problem of referred pain. Neuroscience Letters 24:25–28. {aJCP}
Baldissera, F., Hultborn, H. & Illert, M. (1981) Integration in spinal neuronal systems. In: Handbook of physiology, section 1. The nervous system, vol. II. Motor control, part 2, ed. Brooks, V. B.. American Physiological Society. {LM}
Barakat, I. & Droz, B. (1987) Differentiation of postmitotic neuroblasts into substance P-immunoreactive sensory neurons in dissociated cultures of chick dorsal root ganglion. Developmental Biology 122:274–86. {aJCP}
Barber, W. D., & Burks, T. F. (1983) Brain stem response to phasic gastric distention. American Journal of Physiology 245:G245–G248. {SH}
(1987) Brain-gut interactions: Brain stem neuronal response to local gastric effects of substance P. American Journal of Physiology 253:G369–G377. {SH}
Barber, W. D., Stevenson, G. D. & Burks, T. F. (1987) Tachykinins: Local gastric effects and brain stem responses. American Journal of Physiology 252:G365–G373. {SH}
Barber, W. D., & Yuan, C. S. (1989) Gastric vagal-splanchnic interactions in the brain stem of the cat. Brain Research 487:1–8. {SH}
(in press) Brain stem responses to electrical stimulation of ventral vagal gastric fibers. {SH}
Barber, W. D., Yuan, C. S. & Cammarata, B. J. (in press) Vagal interactions upon brain stem neurons receiving input from the proximal stomach in the cat. American Journal of Physiology. {SH}
Bell, C. (1811) Idea of a new anatomy of the brain; submitted for the observation of his friends. In: Selected readings in the history of physiology, ed. Fulton, J. F. & Wilson, L. G. (1966). Charles C. Thomas. {aJCP}
Belmonte, C. & Gallego, R. (1983) Membrane properties of cat sensory neurones with chemoreceptor and baroreceptor endings. Journal of Physiology 342:603–14. {LM}
Berkenbosch, J., van Oers, J., del Rey, A., Tilders, F. & Besedovsky, H. (1987) Corticotropin-releasing factor-producing neurons in the rat activated by interleukin-1. Science 238:524–26. {DLF}
Bernard, C. (1878) Lessons on the phenomena of life common to animals and vegetables, second lecture: The three forms of life (trans. H. Hoff). In: Homeostasis: Origins of the concept, ed. Langley, L. L. (1973). Dowden, Hutchinson & Ross. {aJCP, FL}
Berthold, C.-H. (1966) Ultrastructural appearance of glycogen in the B-neurons of the lumbar spinal ganglia of the frog. Journal of Ultrastructural Research 14:254–67. {aJCP}
Besedovsky, H. O., del Rey, A., Sorkin, E., Da Prada, M., Burri, R. & Honegger, C. (1983) The immune response evokes changes in brain noradrenergic neurons. Science 221:564–65. {DLF}
Besedovsky, H. O., del Rey, A., Sorkin, E., Da Prada, M. & Keller, H. H. (1979) Immunoregulation mediated by the sympathetic nervous system. Cellular Immunology 48:346–55. {DLF}
Bhargava, H. N. (1988) Intragastric administration of cyclo (Leu-Gly) inhibits the development of tolerance to the analgesic effect of morphine in the rat. Life Sciences 43:187–92. {PO}
Bichat, X. (1827) Physiological researches on life and death (trans. F. Gold). Reprinted 1977. Arno Press. {aJCP}
Bishop, G. H. (1959) The relation between nerve fiber size and sensory modality: Phylogenetic implications of the afferent innervation of the cortex. Journal of Nervous and Mental Disease 128:89–114. {aJCP}
Black, I. B. (1986) Trophic molecules and evolution of the nervous system. Proceedings of the National Academy of Sciences (USA) 83:8249–52. {aJCP}
Blalock, J. E. (1984) The immune system as a sensory organ. Journal of Immunology 132:1067–70. {DLF}
(1989) A molecular basis for bidirectional communication between the immune and neuroendocrine system. Physiological Reviews 69:1–32. {DLF}
Bowers, C. W., Jann, L. Y., & Jan, Y. N. (1986) A substance P-like peptide in bullfrog autonomic nerve terminals: Anatomy, biochemistry, and physiology. Neuroscience 19:343–56. {aJCP}
Brown, A. G. (1981) Organization of the spinal cord: The anatomy and physiology of identified neurones. Springer-Verlag. {aJCP}
Buck, S. H., & Burks, T. F. (1986) The neuropharmacology of capsaicin: Review of some recent observations. Pharmacological Review 38:179–226. {GJ}
Bulloch, K. (1985) Neuroanatomy of lymphoid tissue: A review. In: Neural modulation of immunity, ed. Guillemin, R., Cohn, M. & Melnechuk, T.. Raven Press. {aJCP}
Bulygin, I. A., & Kaljunov, V. N. (1974) Receptor function of sympathetic ganglia. Naukai Tekhnika. {VGZ}
Bulygin, I. A., & Soltanov, V. V. (1973) electrophysiological analysis of visceral afferent systems. Nauka i Tekhnika. {VGZ}
Burgess, P. R., & Perl, E. R. (1967) Myelinated afferent fibres responding specifically to noxious stimulation of the skin. Journal of Physiology 190:541–62. {LM}
(1973) Cutaneous mechanoreceptors and nociceptors. In: Handbook of sensory physiology, vol. 2: Somatosensory system, ed. Iggo, A.. Springer. {JS}
Cajal, S. R.(1911) Histologie du systeme nerveux de I’homme et des vertebres, tome II. Maloine. {SK}
Calvo, W. & Forteza-Vila, J. (1970) Schwann cells of the bone marrow. Blood 36:180–88. {rJCP}
Cannon, W. B. (1926) Physiological regulation of normal states: Some tentative postulates concerning biological homeostatics. In: Ses Amis, ses Colleges, ses Eleves, ed. Richet, A. C., Les Editions Medicales. {FL}
Carpenter, M. B. (1976) Human neuroanatomy. Williams & Wilkins. {aJCP}
Carr, V. McM., & Simpson, S. B. Jr. (1978) Proliferative and degenerative events in the early development of chick dorsal root ganglia. I. Normal development. Journal of Comparative Neurology 182:727–40. {aJCP}
Cervero, F. (1985) Visceral nociception: Peripheral and central aspects of visceral nociceptive systems. Philosophical Transactions of the Royal Society of London B 308:325–37. {rJCP}
(1986) Dorsal horn neurons and their sensory inputs. In: Spinal afferent processing, ed. Yaksh, T. L.. Plenum Press. {aJCP}
Cervero, F. & Connell, L. A. (1984) Distribution of somatic and visceral primary afferent fibers within the thoracic spinal cord of the cat. Journal of Comparative Neurology 230:88–98. {aJCP, JHH}
Cervero, F., Connell, L. A. & Lawson, S. N. (1984) Somatic and visceral primary afferents in the lower thoracic dorsal root ganglia of the cat. Journal of Comparative Neurology 228:422–31. {SL}
Chahl, L. A. (1988) Antidromic vasodilatation and neurogenic inflammation. Pharmacology & Therapeutics 37:275–300. {GJ}
Chahl, L. A., Szolcsanyi, J. & Lembeck, F. (1983) Antidromic vasodilatation and neurogenic inflammation. Satellite Symposium of the 29th International Congress of Physiological Sciences, Newcastle, Australia. {FL}
Chemigovski, V. N. (1944) Afferent fibers of sympathetic nervous system. Proceedings of Navy Medical Academy vol. 4, part 1, 97–129. {VGZ}
(1960) Interoreceptors. Medgiz. {VGZ}
Chung, J. M., Lee, K. H., Hori, Y. & Willis, W. D. (1985) Effects of capsaicin applied to a peripheral nerve on the responses of primate spinothalamic tract cells. Brain Research 329:27–38. {GJ}
Contreras, R. J., & Frank, M. (1979). Sodium deprivation alters neural responses to gustatory stimuli. Journal of General Physiology 73:569–94. {SH}
Craig, A. D., & Mense, S. (1983) The distribution of afferent fibers from the gastrocnemius-soleus muscle in the dorsal horn of the cat, as revealed by the transport of HRP. Neuroscience Letters 41:233–38. {JHH, WLN}
Crawley, J. N. (1985) Neurochemical investigation of the afferent pathway from the vagus nerve to the nucleus tractus solitarius in mediating the “satiety syndrome” induced by systemic cholecystokinin. Peptides 6(Supplement 1):133–37. {SH}
Cuello, A. C, Del Fiacco, M. & Paxinos, G. (1978) The central and peripheral ends of substance P-containing sensory neurons in the rat trigeminal system. Brain Research 152:499–509. {aJCP}
Dale, H. H. (1933) Nomenclature of fibres in the autonomic nervous system and their effects. Journal of Physiology 80:10–11. {FL}
Dart, R. A. (1922) The misuse of th e term “visceral.” Journal of Anatomy 56:177–88. {aJCP, JHH}
Dawson, I. M., Hossack, J. & Wyburn, G. M. (1955) Observations on the Nissl’s substance, cytoplasmic filaments, and the nuclear membrane of spinal ganglion cells. Proceedings of the Royal Society of London, Series B 144:132–42. {aJCP}
de Groat, W. C. (1986) Spinal cord projections and neuropeptides in visceral afferent neurons. In: Visceral sensation, ed. Cervero, F. & Morrison, J. F. B.. Elsevier. {aJCP, GJ, WLN}
de Groat, W. C, Nadelhaft, I., Milne, R. J., Booth, A. M., Morgan, C. & Thor, K. (1981) Organization of the sacral parasympathetic reflex pathways to the urinary bladder and large intestine. Journal of the Autonomic Nervous System 3:135–60. {WLN}
Delbro, D., Fandriks, L., Lisander, B. & Andersson, S. A. (1982) Gastric atropine-sensitive excitation by peripheral vagal stimulation after hexa-rnethonium. Antidromic activation of afferents? Ada Physiology Scandinavia 114:433–40. {JSD}
Dickenson, A. H., & Sullivan, A. F. (1987) Evidence for a role of the NMDA receptor in the frequency dependent potentiation of deep rat dorsal horn nociceptive neurones following C-fibre stimulation. Neuropharmacology 26:1235–38. {LM}
Dimberg, Y., Hedlund, K. O. & Ebendal, T. (1987) Effects of nerve growth factor on sensory neurons in the chick embryo: A stereological study. International Journal of Developmental Neuroscience 5(3):207–13. {SR}
Dockray, G. J. (1987) Physiology of enteric neuropeptides. In: Physiology of the gastrointestinal tract, ed. Johnson, L. R.. Raven Press. {DG}
(1988) Regulatory peptides and the neuroendocrinology of gut-brain relations. Quarterly Journal of Experimental Physiology 73:703–27. {JSD}
Dockray, G. J., & Sharkey, K. A. (1986) Neurochemistry of visceral afferent neurons. In: Progress in brain research, 67, Visceral sensation, ed. Cervero, F. & Morrision, J. BB. F.. Elsevier. 143–48. {SR}
Dodd, J., Jahr, C. E., Hamilton, P. N., Heath, M. J. S., Matthew, W. D. & Jessell, T. M. (1983) Cytochemical and physiological properties of sensory and dorsal horn neurons that transmit cutaneous sensation. Cold Spring Harbour Symposium of Quantitative Biology 48:685–95. {JSD}
Dodd, J. & Jessell, T. M. (1985) Lactoseries carbohydrates specify subsets of dorsal root ganglion neurons projecting to the superficial dorsal horn of the rat spinal cord. Journal of Neuroscience 5:3278–94. {rJCP}
(1986) Cell surface glycoconjugates and carbohydrate-binding proteins: Possible recognition signals in sensory neurone development. Journal of Experimental Biology 124:225–38. {rJCP}
Donnerer, J. (1988) Reflex activation of the adrenal medulla during hypoglycemia and circulatory dysregulation is regulated by capsaicinsensitive afferents. Naunyn Schmiedeberg’s Archives of Pharmacology 338:282–86. {DPY}
Duce, I. R., & Keen, P. (1977) An ultrastructural classification of the neuronal cell bodies of th e rat dorsal root ganglion using zinc iodide-osmium impregnation. Cell and Tissue Research 185:263–77. {aJCP}
Dyck, P. J., Mellinger, J. F., Reagan, T. J., Horowitz, S. J., McDonald, J. W., Litchy, W. J., Daube, J. R., Fealty, R. D., Go, V. L., Kao, P. C, Brimijoin, W. S. & Lambert, E. H. (1983) Not “indifference to pain” but varieties of hereditary sensory and autonomic neuropathy. Brain 106:373–90. {aJCP}
Edelman, G. M. (1988) Topobiology: An introduction to molecular embryology. Basic Books. {FL}
Erichsen, J. T., Karten, H. J., Eldred, W. D. & Brecha, N. C. (1982) Localization of substance P-like and enkephalin-like immunoreactivity within preganglionic terminals of the avian ciliary ganglion: Light and electron microscopy. Journal of Neuroscience 2:994–1003. {aJCP}
Felten, D. L., Ackerman, K. D., Wiegand, S. J. & Felten, S. Y. (1987a) Noradrenergic sympathetic innervation of the spleen: I. Nerve fibers associate with lymphocytes and macrophages in specific compartments of the splenic white pulp. Journal of Neuroscience Research 18:28–36. {DLF}
Felten, D. L., Felten, S. Y., Bellinger, D. L., Carlson, S. L., Ackerman, K. D., Madden, K. S., Olschowka, J. A. & Livnat, S. (1987b) Noradrenergic sympathetic neural interaction s with the immune system: Structure and function. Immunological Reviews 100:225–60. {DLF}
Felten, D. L., Felten, S. Y., Carlson, S. L., Olschowka, J. A. & Livnat, S. (1985) Noradrenergic and peptidergic innervation of lymphoid tissue. Journal of Immunology 135:755s–65s. {aJCP}
Felten, D. L., Felten, S. Y., Madden, K. S., Ackerman, K. D. & Bellinger, D. L. (1989) Development, maturation and senescence of sympathetic innervation of secondary immune organs. In: Development, maturation and senescence of neuroendocrine systems, ed. Schreibman, M. P. & Scanes, C. G.. Academic Press. {DLF}
Felten, D. L., & Sladek, J. R. Jr. (1983) Monoamine distribution in primate brain. V. Monoaminergic nuclei: Anatomy, pathways and local organization. Brain Research Bulletin 10:171–284. {DLF}
Felten, S. Y., Carlson, S. L., Bellinger, D. L. & Felten, D. L. (1986) Overview of the efferent autonomic nervous system. In: Neuroregulation of autonomic, evidence, and immune systems, ed. Frederickson, R., Hendrie, H. C., Hingtgen, J. N. & Aprison, M. H.. Martinus-Nijhof. {DLF}
Felten, S. Y., Felten, D. L., Bellinger, D. L., Carlson, S. L., Ackerman, K. D., Madden, K. S., Olschowka, J. A.Livnat, S. (1988) Noradrenergic sympathetic innervation of lymphoid organs. Progress in Allergy 43:14–36. {DLF}
Felten, S. Y., & Olschowka, J. A. (1987) Noradrenergi c sympathetic innervation of the spleen: II. Tyrosine hydroxylase (TH)-positive nerve terminals form synaptic-like contacts on lymphocytes in the splenic white pulp. Journal of Neuroscience Research 18:37–48. {DLF}
Fitzgerald, M. (1983) Capsaicin and sensory neurons - A review. Pain 15:109–30. {aJCP, GJ}
Fitzgerald, M. & Gibson, S. (1984) The postnatal physiological and neurochemical development of peripheral sensory C-fibers. Neuroscience 13:933–44. {aJCP}
Flourens, P. (1842) Recherches experimentales sur les proprietes et les fonctions du systeme nerveux dans les animaux vertebres, 2d ed. Baillere. {JHH}
Fontaine-Perus, J., Chanconie, M. & La Douarin, N. M. (1985) Embryonic origin of substance P-containing neurons in cranial and spinal sensory ganglia of the avian embryo. Developmental Biology 107:227–38. {arJCP}
Foreman, R. D., Blair, R. W. & Ammons, W. S. (1986) Neural mechanisms of cardiac pain. In: Visceral sensation, ed. Cervero, F. & Morrison, J. F. B.. Elsevier. {aJCP}
Fujita, T. & Kobayashi, S. (1979) Current views on the paraneurone concept. Trends in Neuroscience 2:27–30. {rJCP}
Fuller, R. W., Felten, S. Y., Perry, K. W., Siroddy, H. D. & Felten, D. L. (1981) Sympathetic noradrenergic innervation of guinea pig liver: Histofluorescence and pharmacologic studies. Journal of Pharmacology and Experimental Therapeutics 218:282–88. {DLF}
Fulton, B. P. (1987) Postnatal changes in conduction velocity and soma action potential parameters of rat dorsal root ganglion neurones. Neuroscience Letters 73:125–30. {LM}
Fyffe, R. E. W. (1984) Afferent fibers. In: Handbook of the spinal cord, ed. Davidoff, R. A.. Marcel Dekker. {GJ}
Gabella, G. (1976) Structure of the autonomic nervous system. Chapman & Hall. {aJCP}
Gallego, R. & Eyzaguirre, C. (1978) Membrane and action potential characteristics of A and C nodose ganglion cells studied in whole ganglia and in tissue slices. Journal of Neurophysiology 41:1217–32. {rJCP, JSD}
Gaskell, W. H. (1886) On the structure, distribution, and function of the nerves which innervate the visceral and vascular systems. Journal of Physiology (London) 7:1–80. {aJCP}
(1916) The involuntary nervous system. Longmans, Green. {aJCP}
Gasser, H. S. (1955) Properties of dorsal root unmedullated fibers on the two sides of the ganglion. Journal of General Physiology 38:709–28. {aJCP}
Gasser, H. S., & Erlanger, J. (1929) the role of fiber size in the establishmen t of a nerve block by pressure or cocaine. American Journal of Physiology 88:581–91. {arJCP}
Geisthovel, E., Ludwig, O. & Simon, E. (1986) The role of fiber size in th e establishment of a nerve block by pressure or cocaine. American Journal of Physiology 88:581–91. {rJCP}
Geppetti, P., Frilli, S., Renzi, D., Santiciolo, P., Maggi, C. A., Theodorsson, E. & Fanciullacci, M. (1988) Distribution of CGRP-like immunoreactivity in various rat tissues: Correlation with substance P and other tachykinins and sensitivity to capsaicin. Regulatory Peptides 23:289–98. {CAM}
Gibbens, I. L., Campbell, G. C, Morris, J. L., Nilsson, S. & Murphy, R. (1987) Pathway-specific connections between peptide-containing preganglionic and postganglionic neurons in the vagus nerve of the toad (Bufo marinus). Journal of the Autonomic Nervous System 20:43–55. {aJCP}
Goetzl, E. J., Chernov, T., Renold, F. & Payan, D. G. (1985) Neuropeptide regulation of the expression of immediate hypersensitivity. Journal of Immunology 135:802s–5s. {aJCP}
Goetzel, E. J., Sreedharan, S. P. & Harkonen, W. S. (1988) Pathogenetic roles of neuroimmunologic mediators. Immunology and Allergy Clinics of North America 8:183–200. {DLF}
Gome, R. C, Pfister, C, Rathsack, R. & Oehme, P. (1984) Zur zellularen Verteilung von Substanz P im Nebennierenmark der Ratte. Biomedica Biochimica Ada 43:135–37. {PO}
Gosnell, B. A., & Hsiao, S. (1984) Effects of cholecystokinin on taste preference and sensitivity in rats. Behavioral Neuroscience 98:452–60. {SH}
Gould, S. J. (1977) Ontogeny and phylogeny. Belknap Press. {rJCP}
Grundy, D. (1988) Speculations on the structure/function relationship for vagal and splanchnic afferent endings supplying the gastrointestinal tract. Journal of Autonomic Nervous System 22:175—80. {DG}
Guyton, A. C.(1986) Textbook of medical physiology, 7th ed. W. B. Saunders. {aJCP}
Ha, H. (1970) Axonal bifurcation in the dorsal root ganglion of the cat: A light and electron microscopic study. Journal of Comparative Neurology 140:227–40. {aJCP}
Hakanson, R., Bynke, G., Beding, B. & Wahlestedt, C. (1985) Tachykinin antagonists suppress responses to ocular injury in the rabbit. In: Tachykinin antagonists, ed. Hakanson, R. & F., Sundler. Elsevier. {aJCP}
Hamburger, V. (1961) Experimental analysis of the dual origin of the trigeminal ganglion in the chick embryo. Journal of Experimental Zoology 148:91–124. {aJCP}
Hamburger, V. & Levi-Montalcini, R. (1949) Proliferation, differentiation, and degeneration in the spinal ganglia of the chick embryo under normal and experimental conditions. Journal of Experimental Zoology 148:91—124. {aJCP}
Hardebo, J. E. (1984) The involvement of trigeminal substance P neurons in cluster headache: An hypothesis. Headache 24:294–304. {aJCP}
Harper, A. A., & Lawson, S. N. (1985) Electrical properties of rat dorsal root ganglion neurones with different peripheral nerve conduction velocities. Journal of Physiology 359:47–63. {rJCP}
Harper, G. P., & Thoenen, H. (1981) Target cells, biological effects, and mechanism of action of nerve growth factor and its antibodies. Annual Reviews of Pharmacology and Toxicology 21:205–29. {aJCP}
Harrison, G. B., ed. (1968) Shakespeare. The complete works. Harcourt, Brace & World. {JHH}
Head, H., Rivers, W. H. R., & Sherren, J. (1905) The afferent nervous system from a new aspect. Brain 28:99–115. {aJCP}
Hecht, K., Oehme, P., Kolometseva, I. A., Lyovshima, I. P., Poppei, M. & Airapetjanz, M. G. (1980) Effect of substance P analogue on chronic deprivation of sleep of wistar rats under stress. In: Neuropeptides and neural transmission, ed. Marsan, C. A. & Traczyk, W. Z.. Raven Press. {PO}
Hecht, K., Oehme, P. & Poppei, M. (1982) Action of substance P and a substance P-hexapeptide analogue on avoidance learning in rats. Pharmazie 37:791–92. {PO}
Hefti, F. (1986) Nerve growth factor promotes survival of septal cholinergic neurons after fimbrial transections. Journal of Neuroscience 6:2155. {DLF}
Heinbecker, P., Bishop, G. H. & O’Leary, J. L. (1934) Analysis of sensation in terms of the nerve impulse. Archives of Neurology and Psychiatry 31:34–53. {aJCP}
Henry, J. L. (1980) Substance P and pain: An updating. Trends in Neurosciences 3:95–97. {aJCP}
Hermann, G. E., & Rogers, R. C. (1985) Convergence of vagal and gustatory afferent input within th e parabrachial nucleus of the rat. Journal of the Autonomic Nervous System 13:1–17. {SH}
Herrick, C. J. (1903) The doctrine of nerve components and some of its applications. Journal of Comparative Neurology 13:301–12. {arJCP, WLN}
(1922) What are viscera? Journal of Anatomy 56:167–76. {aJCP, JHH}
(1927) An introduction to neurology. W. B. Saunders. {arJCP}
Hess, A. (1955) The fine structure of young and old spinal ganglia. Anatomical Record 123:399–423. {aJCP}
Higashi, H. (1986) Pharmacological aspects of visceral sensory receptors. Progress in Brain Research 67:149–62. {JSD}
Hillarp, N.-A. (1959) The construction and functional organization of the autonomic innervation apparatus. Ada Physiologica Scandinavia Supplement 157:1–38. {SK}
Hille, B. (1984) Ionic channels of excitable membranes. Sinauer Associates. {LM}
Himms-Hagen, J. (1984) Thermogenesis in brown adipose tissue as a buffer. Implications for obesity. New England Journal of Medicine 311:1549–58. {DLF}
Hokfelt, T., Elde, R., Johansson, O., Luft, R., Nilsson, G. & Arimura, A. (1976) Immunohistochemical evidence for separate populations of somatostatin-containing and substance P-containing primary afferent neurons in the rat. Neuroscience 1:131–36. {aJCP}
Hokfelt, T., Elfvin, L.-G., Schultzberg, M., Goldstein, M. & Nilsson, G. (1977) On the occurrence of substance P-containing fibers in sympathetic ganglia: Immunohistochemical evidence. Brain Research 132:29–41. {aJCP}
Hokfelt, T., Kellerth, J. O., Nilsson, G. & Pernow, B. (1975) Experimental immunohistochemical studies on the localization and distribution of substance P in cat primary sensory neurons. Brain Research 100:235—52. {aJCP}
Hollt, V., Haarmann, I. & Renner, S. (1989) Morphine induces proenkephalin gene expression in the adrenal medullae of rats by a central mechanism. International Narcotics Research Conference, Ste. Adele, Canada. {PO}
Holzer, P. (1988) Local effector functions of capsaicin-sensitive sensory nerve endings: Involvement of tachykinins, calcitonin gene-related peptide and other neuropeptides. Neuroscience 24:739–68. {GJ, CAM, JS}
Honig, M. (1982) The development of sensory projection patterns in the embryonic chick hind limb. Journal of Physiology (London) 330:175–202. {aJCP}
Hsiao, S. & Spencer, R. (1983) Analysis of licking responses in rats: Effects of cholecystokinin and bombesin. Behavioral Neuroscience 97:234—45. {SH}
Hunt, S. P. (1983) Cytochemistry of the spinal cord. In: Chemical neuroanatomy. ed. Emson, P. C.. Raven Press. {aJCP}
Jacobs, J. M., Carmichael, N. & Cavanagh, J. B. (1975) Ultrastructural changes in the dorsal root and trigeminal ganglia of rats poisoned with methyl mercury. Neuropathology and Applied Neurobiology 1:1–19. {aJCP}
Jancso, G. (1981) Intracisternal capsaicin: Selective degeneration of chemosensitive primary sensory afferents in the adult rat. Neuroscience Letters 27:41–45. {GJ}
Jancso, G., Ferencsik, M., Such, G., Kiraly, E., Nagy, A. & Bujdoso, M. (1985) Morphological effects of capsaicin and its analogues in newborn and adult mammals. In: Tachykinin antagonists, ed. Hakanson, R. & Sundler, F.. Elsevier. {rJCP}
Jancso, G., Kiraly, E. & Jancso-Gabor, A. (1977) Pharmacologically induced selective degeneration of chemosensitive primary sensory neurons. Nature 270:741–43. {aJCP, GJ, CAM}
(1980) Chemosensitive pain fibres and inflammation. International Journal of Tissue Reactions 2:57–66. {GJ}
Jancso, G., Kiraly, E., Joo, F., Such, G. & Nagy, A. (1985) Selective degeneration by capsaicin of a subpopulation of primary sensory neurons in the adult rat. Neuroscience Letters 59:209–14. {CAM}
Jancso, G., Kiraly, E., Such, G., Joo, F. & Nagy, A. (1987) Neurotoxic effect of capsaicin in mammals. Ada Physiologica Hungarica 69:295–313. {rJCP, GJ}
Jancso, G. & Maggi, C. A. (1987) Distribution of capsaicin-sensitive urinary bladder afferents in the rat spinal cord. Brain Research 418:371–76. {GJ}
Jancso, N. (1966) Desensitization with capsaicin and related acylamydes as a tool for studying the function of pain receptors. In: Pharmacology of pain, ed. Lim, R. K. S.. Pergamon Press. {GJ}
Janig, W. (1985) Systemic and specific autonomic reactions in pain: Efferent, afferent, and endocrine components. European Journal of Anaesthesiology 2:319–46. {aJCP}
(1985) Organization of the lumbar sympathetic outflow to skeletal muscle and skin of the cat hindlimb and tail. Reviews of Physiology, Biochemistry, and Pharmacology 102:121–213. {rJCP}
Jeanningros, R. (1982) Vagal unitary responses to intestinal amino acid infusions in the anesthetized cat: A putative signal for protein-induced satiety. Physiology and Behavior 28:9–21. {DPY}
Johnson, R. H., & Spalding, J. M. K. (1974) Disorders of the autonomic nervous system. F. A. Davis Co. {rJCP}
Joo, F., Szolcsanyi, J. & Jancso-Gabor, A. (1969) Mitochondrial alterations in the spinal ganglion cells of the rat accompanying the long-lasting sensory disturbance induced by capsaicin. Life Sciences 8:621–26. {JS}
Ju, G., Hokfelt, T., Brodin, E., Fahrenkrug, J., Fischer, J. A., Frey, P., Elde, R. P. & Brown, J. C. (1987) Primary sensory neurons of the rat showing calcitonin gene-related peptide immunoreactivity and their relation to substance P-, somatostatin-, galanin-, vasoactive intestinal polypeptide-, and choleeystokinm-immunoreactive ganglion cells. Cell and Tissue Research 247:417–31. {aJCP}
Kai-Kai, M. A., Anderton, B. H. & Keen, P. (1986) A quantitative analysis of the interrelationships between subpopulations of rat sensory neurons containing arginine vasopressin or oxytocin and those containing substance P, fluoride-resistant acid phosphatase, or neurofilament protein. Neuroscience 18:475–86. {aJCP, GJ, SL}
Kai-Kai, M. A., Swann, R. W. & Keen, P. (1985) Localization of chromatographically characterized oxytocin and arginine-vasopressin to sensory neurone s in the rat. Neuroscience Letters 55:83–88. {aJCP}
Kalina, M. & Wolman, M. (1970) Correlative histochemical and morphological study on the maturation of sensory ganglion cells. Histochemie 22:100–08. {aJCP}
Kannan, EL, Yamashita, H., Kouizumi, K. & Brooks, C. McC. (1988) Neuronal activity of the cat supraoptic nucleus is influenced by muscle small diameter afferent (group III and IV) receptors. Proceedings of the National Academy of Sciences of the United States of America 85:5744–48. {WLN}
Kastin, A. J., Olson, R. D., Serially, A. V. & Coy, D. H. (1979) CNS effects of peripherally administered peptides. Life Sciences 25:401–14. {PO}
Kawatani, ML, Erdman, S. L. & de Groat, W. C. (1985) Vasoactive intestinal polypeptide and substance P in primary afferent pathways to the sacral spinal cord of the cat. Journal of Comparative Neurology 241:327–47. {aJCP}
Keef, K. D., & Kreulen, D. L. (1988) Convergence of noncholinergic afferent neurons in the inferior mesenteric ganglion of the guinea pig. Neuroscience Letters 95:161–66. {SH}
Kessler, J. A., Adler, J. E., Bohn, M. C. & Black, I. B. (1981) Substance P in principal sympathetic neurons: Regulation by impulse activity. Science 214:335–36. {aJCP}
Kessler, J. A., & Black, I. B. (1981) Similarities in development of substance P and somatostatin in peripheral sensory neurons: Effects of capsaicin and nerve growth factor. Proceedings of the National Academy of Sciences of the United States of America 78:4644–47. {aJCP}
Kirchgessner, A. L., & Gershon, M. D. (1988) Projection s of submucosal neurons to the mysenteric plexus of the guinea pig intestine: In vitro tracing of microcircuits by retrograde and anterograde transport. Journal of Comparative Neurology 277:487–98. {SR}
Kiss, F. (1932) Sympathetic elements in the cranial and spinal ganglia. Journal of Anatomy 66:488–502. {aJCP}
Kline, E. M., & Bidder, T. G. (1946) A study of the subjective sensations associated with extrasystoles. American Heart Journal 31:254–59. {BTE}
Knyihar-Csillik, E. & Csillik, B. (1981) FRAP: Histochemistry of the primary nociceptiye neuron. Progress in Histochemistry and Cytochemistry 14:1–132. {aJCP}
Kobayashi, S., Furness, J. B., Smith, T. K. & Pompolo, S. (1989) Histological identification of the interstitial cells of Cajal in the guinea pig small intestine. Arch. Histol. Cytol. 52:277–96. {SK}
Koerber, H. R., & Mendell, L. M. (1988) Functional specialization of central projections from identified primar y afferent fibers. Journal of Neurophysiology 60:1597–1614. {LM}
Koerber, R. H., Druzinsky, R. E. & Mendell, L. M. (1988) Properties of somata of spinal dorsal root ganglion cells differ according to peripheral receptor innervated. Journal of Neurophysiology 60:1584–96. {arJCP, LM}
Kreulen, D. L. (1984) Integration in autonomic ganglia. The Physiologist 27:49–55. {SH}
Kreulen, D. L., & Peters, S. (1986) Noncholinergic transmission in a sympathetic ganglion of the guinea-pig elicited by colon distension. Journal of Physiology (London) 374:315–34. {SH}
Krukoff, T. L. (1987) Coexistence of neuropeptides in the sympathetic preganglionic neurons of the cat. Peptides 8:109–12. {aJCP}
Kummer, W. & Heym, Ch. (1986) Correlation of neuronal size and peptide immunoreactivity in the guinea pig trigeminal ganglion. Cell and Tissue Research 245:657–65. {aJCP}
Kuntz, A. (1953) The autonomic nervous system, 4th ed. Lea & Febiger. {arJCP, JHH}
Kuo, D. C, Yang, G. C. H., Yamasaki, D. S. & Krauthamer, G. M. (1982) A wide field electron microscopic analysis of the fiber constituents of the major splanchnic nerve in cats. Journal of Comparative Neurology 210:49–58. {SH, WLN}
Langley, J. N. (1900) The sympathetic and other related systems of nerves. In: Textbook of Physiology, vol. 2, ed. Schafer, E. A.. Y. J. Pentland. {rJCP}
(1903) The autonomic nervous system. Brain 26:1–26. {arJCP, DLF, JHH, FL}
(1921) The autonomic nervous system, Part 1. W. Heffer & Sons. {arJCP, PLRA, BTE, GJ, SK, FL, WLN, JS}
(1922) The nerve fiber constitution of peripheral nerves and of nerve roots. Journal of Physiology 56:382–96. {aJCP}
La Valley, A. L., & Ho, R. H. (1983) Substance P, somatostatin, and methionine enkephalin immunoreactive elements in the spinal cord of the domestic fowl, Gallus domesticus. Journal of Comparative Neurology 213:406–13. {aJCP}
Lawes, I. N. C. (1989) The central connections of the area postrema define the paraventricular system involved in antinoxious behaviors. In: Nausea and vomiting, ed. Harding, R. K., Stewart, D. & Kucharczyck, J.. CRC Press. {PLRA}
Lawson, S. N. (1979) The postnatal development of large light and small dark neurons in mouse dorsal root ganglia: A statistical analysis of cell numbers and size. Journal of Neurocytology 8:275–94. {aJCP}
(1987a) Immunocytochemically defined populations of dorsal root ganglion neurons remaining in the rat after neonatal capsaicin. In: Effects of injury on trigeminal and spinal somatosensory systems, ed. L. M. Pubols & B. Sessle. Alan R. Liss. {GJ}
(1987b) The morphological consequences of neonatal treatment with capsaicin on primary afferent neurones in adult rats. Ada Physiologica Hungarica 69:315–21. {SL}
Lawson, S. N., & Biscoe, T. J. (1979) Development of mouse dorsal root ganglia: An autoradiographi c and quantitative study. Journal of Neurocytology 8:265–74. {aJCP, SL}
Lawson, S. N., & Harper, A. A. (1984) Neonatal capsaicin is not a specific neurotoxin for sensory C-fibres or small dark cells of rat dorsal root ganglia. In: Antidromic vasodilatation and neurogenic inflammation, ed. Chahl, L. A., Szolcsanyi, J. & Lembeck, F.. Akademiai Kiado. {CAM}
Lawson, S. N., Harper, A. A., Harper, E. I., Garson, J. A. & Anderton, B. H. (1984) A monoclonal antibody against neurofilament protein specifically labels a subpopulation of ra t sensory neurones. Journal of Comparative Neurology 228:263–72. {aJCP, JSD, SL}
Lawson, S. N., & Waddell, P. J. (1985) The antibody RT-97 distinguishes between cell bodies with myelinated and unmyelinated peripheral processes in the rat. Journal of Physiology 371:59P. {SL}
Le Douarin, N. M. (1982) The neural crest. Cambridge University Press. {aJCP}
Lembeck, F. (1983) Sir Thomas Lewis’ nocifensor system, histamine and substance P-containing primary afferent nerves. Trends in Neuroscience 6:106–08. {GJ}
(1985) Substance P and sensory neurons. In: Substance P metabolism and biological actions, ed. Jordan, C. C. & Oehme, P.. Taylor & Francis. {aJCP}
(1987) A network of defense. In: Substance P and the neurokinins, ed. Henry, J. L., Couture, R., Cuello, A. C., Pelletier, G., Quirion, R. & Regoli, D.. Springer-Verlag. {arJCP, FL, WLN, PO, JS, VGZ}
(1988) The 1988 Ulf von Euler Lecture: Substance P: From extract to excitement. Ada Physiologica Scandinavica 133:435–54. {FL}
(1989) Pharmacology of afferent neurons. Naunyn-Schmiedebergs Archives of Pharmacology. {FL}
Levi-Montalcini, R. (1987) The nerve growth factor: Thirty-five years later. EMBO Journal 6:1145–54. {aJCP}
Levi-Montalcini, R. & Hamburger, V. (1951) Selective growth-stimulating effects of mouse sarcoma on the sensory and sympathetic nervous system of the chick embryo. Journal of Experimental Zoology 116:321—62. {aJCP}
Lichtman, M. A. (1981) The ultrastructure of the hemopoientic environment of the marrow: A review. Experimental Hematology 9:391–410. {rJCP, DLF}
Lieberman, A. R. (1976) Sensory ganglia. In: The peripheral nerve, ed. Landon, D. N.. Chapman and Hall. {aJCP}
Light, A. R., & Perl, E. R. (1979) Spinal terminatio n of functionally identified primary afferent neurons with slowly conducting myelinated fibers. Journal of Comparative Neurology 186:133–50. {LM}
Lindberg, S. & Mercke, U. (1985) Substance P antagonists and mucociliary activity in rabbit. Naunyn-Schmiedebergs Archives of Pharmacology 329:376–81. {aJCP}
Ling, E. A., Wong, W. C, Yick, T. Y. & Leong, S. K. (1986) Ultrastructural changes in the dorsal motor nucleus of monkey following bilateral cervical vagotomy. Journal of Neurocytology 15:1–15. {WLN}
Lloyd, D. P. C. (1943) Neuron patterns controlling transmission of ipsilateral hind limb reflexes in cat. Journal of Neurophysiology 6:293–315. {aJCP}
Lorenz, K. J. (1958) The evolution of behavior. Scientific American 199:67–82. {rJCP}
Lowenstein, W. (1956) Modulation of cutaneous mechanoreceptors by sympathetic stimulation. Journal of Physiology 132:40–60. {DLF}
Lundberg, J. M., Hokfelt, T., Anggard, A., Terenius, L., Elde, R., Markey, K., Goldstein, M. & Kimmel, J. (1982) Organizational principles in the peripheral nervous system: Subdivision by coexisting peptides (somatostatin-, avian pancreatic polypeptide-, and vasoactive intestina l polypeptide-like immunoreactive materials). Proceedings of the National Academy of Sciences of the United States of America 79:1303–07. {aJCP}
Lundberg, J. M., Hokfelt, T., Nilsson, G., Terenius, L., Rehfeld, J., Elde, R. & Said, S. (1978) Peptide neurons in the vagus, splanchnic, and sciatic nerves. Ada Physiological Scandinavica 1104:499–501. {aJCP}
Lundberg, J. M., Saria, A., Theordorsson-Nordheim, E., Brodin, E., Hua, X., Martling, C.-R.Gamse, R. & Hokfelt, T. (1985) Multiple tachykinins in capsaicin-sensitive afferents: Occurrence, release, and biological effects with special reference to irritation of the airways. In: Tachykinin antagonists, ed. Hakanson, R. & Sundler, F.. Elsevier. {aJCP}
Lundblad, L., Saria, A., Lundberg, J. M. & Anggard, A. (1983) Increased vascular permeability in rat nasal mucosa induced by substance P and stimulation of capsaicin-sensitive trigeminal neurons. Ada Oto-laryngologica (Stockholm) 96:479–84. {aJCP}
Lynn, B. & Carpenter, S. E. (1982) Primary afferent units from th e hairy skin of the rat hind limb. Brain Research 238:29–43. {GJ}
MacLean, D. B., Lewis, S. F. & Wheeler, F. B. (1988) Substance P content n i cultured neonatal rat vagal sensory neurons: The effect of nerve growth factor. Brain Research 457:53–62. {JSD, SR}
Maggi, C. A., Santicioli, P., Geppetti, P., Parlani, M., Astolfi, M., Del Bianco, E., Patacchini, R., Giuliani, S. & Meli, A. (1989a) The effect of calcium-free medium and nifedipine on the releas e of substance P-like immunoreactivity and contractions induced by capsaicin in the isolated guinea pig and rat urinary bladder. General Pharmacology 29:445–56. {CAM}
Maggi, C. A., Santicioli, P., Geppetti, P., Parlani, M., Astolfi, M., Pradelles, P., Patacchini, R. & Meli, A. (1988) The antagonism by Ruthenium Red of the actions of capsaicin on the peripheral terminals of sensory neurons: Further studies. European Journal of Pharmacology 154:1–10. {CAM}
Maggi, C. A., Lippe, I. Th., Giuliani, S., Abelli, L., Somma, V., Geppetti, P., Jancso, G., Santicioli, P. & Meli, A. (1989b) Topical versus systemic capsaicin desensitization: Specific and unspecific effects as indicated by modification of reflex micturition in rats. Neuroscience 31:745–56. {CAM}
Maggi, C. A., & Meli, A. (1986) The role of neuropeptides in the regulation of the micturition reflex. Journal of Autonomic Pharmacology 6:133–62. {aJCP}
(1988) The sensory-efferent function of capsaicin-sensitive sensory neurons. General Pharmacology 19:1–43. {rJCP, GJ, CAM, JS}
Malliani, A. (1982) Cardiovascular sympathetic afferents. Reviews of Physiology, Biochemistry, and Pharmacology 94:11–74. {aJCP}
Malliani, A., Recordati, G. & Schwartz, P. J. (1973) Nervous activity of afferent cardiac sympathetic fibres with atrial and ventricular endings. Journal of Physiology (London) 229:457–69. {aJCP}
Marler, P. R., & Hamilton, W. J. III (1966) Mechanisms of animal behavior. John Wiley & Sons. {rJCP, VGZ}
Marsh, S. J., Stansfeld, CC. E., Brown, D. A., Davey, R. & McCarthy, D. (1987) The mechanism of action of capsaicin on sensory C-type neurons and their axons in vitro. Neuroscience 23:275–89. {JSD}
Matthews, M. R., Connaughton, M. & Cuello, A. C. (1987) Ultrastructure and distribution of substance P-immunoreactive sensory collaterals in the guinea pig prevertebral sympathetic ganglia. Journal of Comparative Neurology 258:28–51. {aJCP, WLN}
Matthews, M. R., & Cuello, A. C. (1982) Substance P-immunoreactive peripheral branches of sensory neurons innervate guinea pig sympathetic neurons. Proceedings of the National Academy of Sciences 79:1668–72. {GJ}
Maxwell, D. J., & Rethelyi, M. (1987) Ultrastructure and synaptic connections of cutaneous afferent fibers in the spinal cord. Trends in Neurosciences 10:117–23. {aJCP}
Mayr, E. (1982) The growth of biological thought. Harvard University Press. {arJCP}
McCarthy, P. W., & Lawson, S. N. (1989) Cell type and conduction velocity of rat primary sensory neurons with substance P-like immunoreactivity. Neuroscience 28:745–53. {rJCP, SL}
Mei, N. (1978) Vagal glucoreceptors in the small intestine of the cat. Journal of Physiology 282:485–506. {DPY}
(1985) Intestinal chemosensitivity. Physiological Reviews 65:211–37. {aJCP}
Melone, J. (1986) Vagal receptors sensitive to lipids in the small intestine of the cat. Journal of the Autonomic Nervous System 17:231–41. {DPY}
Melzack, R. & Wall, P. D. (1965) Pain mechanisms: A new theory. Science 150:971–79. {rJCP}
Mendell, L. M. (1966) Physiological properties of unmyelinated fiber projection to the spinal cord. Experimental Neurology 16:316–22. {LM}
Mendell, L. M., & Wall, P. D. (1965) Response of single dorsal cord cells to peripheral cutaneous unmyelinated fibers. Nature 206:4979–97. {LM}
Mense, S. (1986) Slowly conducting afferent fibers from deep tissues: Neurobiological properties and central nervous actions. Progress in Sensory Physiology 6:139–219. {WLN}
Mitchell, G. A. G. (1953) Anatomy of the autonomic nervous system. E. & S. Livingstone. {aJCP}
Molander, C, Ygge, J. & Dalsgaard, C.-J. (1987) Substanc e P-, somatostaitin-, and calcitonin gene-related peptide-like immunoreactivity and fluoride resistant acid phosphatase-activity in relation to retrogradely labelled cutaneous, muscular and visceral primary sensory neurones in the rat. Neuroscience Letters 74:37–42. {SL}
Moncrieff, R. W. (1967) The chemical senses. Leonard Hill. {aJCP}
Morgan, C, de Groat, W. C. & Nadelhaft, I. (1986) The spinal distribution of sympathetic preganglionic and visceral primary afferent neurons tha t send their axons into the hypogastric nerve of the cat. Journal of Comparative Neurology 243:23–40. {aJCP}
Mountcastle, V. B. (1961) Some functional properties of the somatic afferent system. In: Sensory communication, ed. Rosenblith, W. A.. M.I.T. Press and John Wiley. {aJCP}
(1980) Medical physiology, 14 ed., ed. Mountcastle, V. B.. CV Mosby. {JHH}
Nagy, J. I. (1982) Capsaicin: A chemical probe for sensory neuron mechanisms. In: Handbook of Psychopharmacology, vol. 15, ed. Iversen, L. L., Iversen, S. D. & Snyder, S. H.. Plenum Press. {GJ}
Nagy, J. I., Iversen, L. L., Goedert, M., Chapman, D. & Hunt, S. P. (1983) Dose-dependent effects of capsaicin on primary sensory neurons in the neonatal rat. Journal of Neuroscience 3:399–406. {rJCP}
Narayanan, C. H., & Narayanan, Y. (1980) Neural crest and placodal contributions in the development of th e glossopharyngeal-vagal complex in the chick. Anatomical Record 196:71–82. {aJCP}
Nauta, W. J. H., & Fertag, M. (1986) Fundamental Neuroanatomy. W. K, Freeman. {DLF}
Ness, T. & Gebhart, G. F. (1988) Colorectal distension as a noxious visceral stimulus: Physiologic and pharmacologic characterization of pseudoaffective reflexes in the rat. Brain Research 450:153–69. {WLN}
Neuhuber, W. L., & Sandoz, P. A. (1986) Vagal primary afferent terminals in the dorsal motor nucleus of the rat: Are they making monosynaptic contacts on pregaglionic efferent neurons? Neuroscience Letters 69:126–30. {WLN}
Neuhuber, W. L., Sandoz, P. A. & Fryscak, T. (1986) The central projections of primary afferent neurons of greater splanchnic and intercostal nerves in the rat. Anatomy and Embryology 174:123–44. {WLN}
New, H. V., & Mudge, A. W. (1986) Distribution and ontogeny of SP, CGRP, and VIP in chick sensory and sympathetic ganglia. Developmental Biology 116:337–46. {aJCP}
Newgreen, D. F., & Jones, R. D. (1975) Differentiation in vitro of sympathetic cells from chick embryo sensory ganglia. Journal of Embryology and Experimental Morphology 33:43–56. {aJCP}
Nieber, K. & Oehme, P. (1987) Effect of substance P (SP) and the N-terminal SP-analogue SP(1–4) on the pre- and post synaptic transmitter release in rat adrenal gland slices. Biomedica Biochimica Ada 46:103–09. {PO}
Nishi, S., Soeda, H. & Koketsu, K. (1965) Journal of Cellular and Comparative Physiology 66:19–32. {AN}
Norgren, R. (1976) Taste pathways to hypothalamus and amygdala. Journal of Comparative Neurology 166:17–30. {SH}
(1985) Taste and th e autonomic nervous system. Chemical Senses 10:143–61. {aJCP}
Norgren, R. & Leonard, C. M. (1973) Ascending central gustatory pathways. Journal of Comparative Neurology 150:217–38. {SH}
Nosaka, S. (1986) Electrophysiologic identification of preganglionic neurons in the rat dorsal motor nucleus and analysis of vagus afferent projections. Experimental Neurology 91:366–81. {WLN}
Nozdrachev, A. D. (1983) Physiology of vegetative nervous system. Meditzina, Leningrad. {VGZ}
Obal, F. Jr., Jancso, G., Hajos, M. & Obal, F. (1987) Differences in the mechanisms of the thermoregulatory impairment induced by capsaicin in newborn and adult rats. Ada Physiologica Hungarica 69:437–45. {GJ}
Gehme, P., Hecht, K., Piesche, L., Hilse, H., Morgenstern, E. & Poppei, M. (1980) Substance P as a modulator of physiological and pathological processes. In: Neuropeptides and neural transmission, ed. Marsan, C. A. & Traczyk, W. Z.. Raven Press. {PO}
Gehme, P., Hilse, BL, Morgenstern, E. & Gores, E. (1980a) Substance P: Does it produce analgesia or hyperanalgesia? Science 208:305–07. {PO}
Omlin, F. X., Matthieu, J.-M., Philippe, E., Roch, J.-M. & Droz, B. (1984) Expression of myelin-associated glycoprotein of by small neurons of the dorsal root ganglion of chickens. Science 227:1359–60. {aJCP}
Otsuka, M. & Konishi, S. (1983) Substance P: The first peptide neurotransmitter? Trends in Neurosciences 6:317–20. {aJCP}
Otsuka, M., Konishi, S., Yanagisawa, M., Tsunoo, A. & Akagi, H. (1982) Role of substance P as a sensory transmitter in spinal cord and sympathetic ganglia. In: Substance P in the nervous system, ed. Porter, R. & O’Connor, M.. Pitman. {GJ}
Paintal, A. S. (1972) Cardiovascular receptors. In: Handbook of sensory physiology, vol. 3/1: Enteroceptors, ed. Neil, E.. Springer. {JS}
Panula, P., Hadjiconstantinou, M., Yang, H.-Y. & Costa, E. (1983) Immunohistochemical localization of bombesin/gastrin-releasing peptide and substance P in primary sensory neurons. Journal of Neuroscience 3:2021–29. {aJCP}
Parker, G. H. (1919) The elementary nervous system. J. B. Lippincott. {rJCP}
Patton, H. D. (1960) spinal properties of nerve trunks and tracts. In: Medical physiology and biophysics, ed. Ruch, T. C. & Fulton, J. F.. W. B. Saunders. {aJCP}
Payan, D. G., & Goetzl, E. J. (1987) Dual roles of substance P: Modulator of immune and neuroendocrine functions. Annals of New York Academy of Sciences 512:465–75. {DLF}
Payan, D. G., Levine, J. D. & Goetzl, E. J. (1984) Modulation of immunity and hypersensitivity by sensory neuropeptides. Journal of Immunology 132:1601–04. {GJ}
Payan, D. G., McGillis, J. P. & Goetzl, E. J. (1986) Neuroimmunology. Advances in Immunology 39:299–323. {aJCP}
Peach, R. (1972) Fine structural features of light and dark in the trigeminal ganglion of the rat. Journal of Neurocytology 1:151–60. {aJCP}
Pearse, A. G. E. (1969) The cytochemistry and ultrastructure of polypeptide-hormone producing cell of the APUD series and the embryologic, physiologic and pathologic implications of th e concept. Journal of Histochemistry and Cytochemistry 17:303–13. {rJCP}
Pearson, J., Brandeis, L. & Cuello, C. (1982) Depletion of substance P-containing axons in substantia gelatinosa of patients with diminished pain sensitivity. Nature 295:61–63. {aJCP}
Perl, E. R. (1984) Pain and nociception. In: Handbook of physiology, sect. 1, vol. 3, ed. I. Darian-Smith. American Physiological Society. {aJCP, LM}
Perrin, J., Crousillat, J. & Mei, N. (1981) Assessment of true splanchnic glucoreceptors in the jejuno-ileum of the cat. Brain Research Bulletin 7:625–28. {DPY}
Pfaffman, D., Frank, M. & Norgren, R. (1976) Neural mechanisms and behavioral aspect of taste. Annual Review of Psychology 30:283–325. {SH}
Philippe, E., Omlin, F. X. & Droz, B. (1986) Myelin-associated glycoprotein immunoreactive material: An early neuronal marker of dorsal root ganglion cells during chick development. Developmental Brain Research 27:275–77. {aJCP}
Pick, J. (1970) The autonomic nervous system: Morphological, comparative, clinical, and surgical aspects. J. B. Lippincott. {aJCP}
Pierce, J. P., & Roberts, W. J. (1981) Sympathetically induced changes in the response of guard hair and type II receptors in the cat. Journal of Physiology 314:411–28. {DLF}
Pieron, H. (1952) The sensations: Their functions, processes, and mechanisms. Yale University Press. {aJCP}
Prechtl, J. C., & Powley, T. L. (1987) A light and electron microscopic examination of the vagal hepatic branch of the rat. Anatomy and Embryology 176:115–26. {aJCP}
(1990) The fiber composition of the abdominal vagus of the rat. Anatomy and Embryology. 181:101–15. {arJCP}
Price, D. D. (1986) The question of how the dorsal horn encodes sensory information. In: Spinal afferent processing, ed. Yaksh, T. L.. Plenum Press. {aJCP}
Price, J. (1985) An immunohistochemical and quantitative examination of dorsal root ganglion neuronal subpopulations. Journal of Neuroscience 5:2051–59. {arJCP}
Procacci, P. & Maresca, M. (1987) Reflex sympathetic dystrophies and algodystrophies: Historical and pathogenic considerations. Pain 31:137–46. {aJCP}
Rambourg, A., Clermont, Y. & Beaudet, A. (1983) Ultrastructural features of six types of neurons in the dorsal root ganglia. Journal of Neurocytology 12:47–66. {aJCP}
Ranieri, F., Mei, N. & Crousillat, J. (1973) Les afferences splanchniques provenant des mecanorecepteurs gastrointestinaux et peritoneaoux. Experimental Brain Research 16:276–90. {SH}
Raybould, H. E., & Tache, Y. (1988) Cholecystokinin inhabits gastric motility and emptying via a capsaicin-sensitive vagal pathway in rats. American Journal of Physiology 255:G242–46. {DPY}
Reul, J. M. H. M., & deKloet, E. R. (1985) Two receptor systems for corticosterone in rat brain: Microdistribution and differential occupation. Endocrinology 117:505–11. {DLF}
Rinaman, L., Card, J. P., Schwaber, J. S. & Miselis, R. R. (1989) Ultrastructural demonstration of a gastric monosynaptic vagal circuit in the nucleus of the solitary tract in rat. Journal of Neuroscience 9:1985–96. {WLN}
Ritter, R. C, Kalivas, P. & Bernier, S. (1986) Cholecystokinin-induced suppression of locomotion is attenuated in capsaicin treated rats. Peptides 7:587–90. {DPY}
Ritter, R. C, Ritter, S., Ewart, W. R. & Wingate, D. L.(1989) Capsaicin attenuates hindbrain responses to circulating cholecystokinin. American Journal of Physiology. {SR}
Ritter, S. & Dinh, T. T. (1988) Capsaicin-induced neuronal degeneration: Silver impregnation of cell bodies, axons, and terminals in the central nervous system of the adult rat. Journal of Comparative Neurology 271:79–90. {WBL, SR}
Roberts, W. J., & Levitt, G. R. (1982) Histochernical evidence for sympathetic innervation of hair recepto r afferents in cat skin. Journal of Comparative Neurology 210:204–09. {DLF}
Romer, A. S. (1970) The vertebrate body. W. B. Saunders. {arJCP}
(1972) The vertebrate as a dual animal: Somatic and visceral. Evolutionary Biology 6:121–56. {rJCP}
Rose, R. D., Koerber, H. R., Sedivec, M. J. & Mendell, L. M. (1986) Somal action potential duration differs in identified primary afferents. Neuroscience Letters 63:259–64. {LM}
Roske, I., Rathsack, R., Oehme, P. & Hilse, H. (1983) Influence of chronic immobilization on blood pressure and substance P-like immunoreactivity (SPLIR) in plasma and adrenals of wistar rats. Pharmazie 38:491. {PO}
Rowell, C. H. F. (1989) The taxonomy of invertebrate neurons: A plea for a new field. Trends in Neuroscience 12:169–74. {rJCP}
Rozsa, Z. & Jacobson, E. D. (1989) Capsaicin-sensitive nerves are involved in bile-oleate-induced intestinal hyperemia. American Journal of Physiology 256:G476–81. {DPY}
Rozsa, Z., Sharkey, K. A., Jancso, G. & Varro, V. (1986) Evidence for a role of capsaicin-sensitive mucosal afferent nerves in the regulation of mesenteric blood flow in the dog. Gastroenterology 90:906–10. {DPY}
Ruda, M. A., Bennett, G. J. & Dubner, R. (1986) Neurochemistry and neurocircuitry of the dorsal horn. Progress in Brain Research 66:219–68. {aJCP}
Sann, H., Pinter, E., Szolcsanyi, J. & Pierau, Fr.-K. (1988) Peptidergic afferents might contribute to the regulation of skin blood flow. Agents and Actions 23:14–15. {JS}
Sant’Ambrogio, G. (1982) Information arising from the tracheobronchial tree of mammals. Physiological Reviews 62:531–69. {WLN}
Sato, A. & Schmidt, R. F. (1973) Somatosympathetic reflexes: Afferent fibers, central pathways, discharge characteristics. Physiological Review 53:916–47. {rJCP, WLN}
(1987) The modulation of visceral functions by somatic afferent activity. Japanese Journal of Physiology 37:1–17. {rJCP, GJ, JS}
Scharf, J.-H. (1958) Sensibel Ganglien. In: Handbook der microscopischen Anatomie des Menschen, vol. 4, part 3. Springer-Verlag. {aJCP}
Schmalbruch, H. (1987) The number of neurons in dorsal root ganglia L4-L6 of the rat. Anatomical Record 219:315–22. {rJCP}
Sharp, G. A., Shaw, G. & Weber, K. (1982) Immunoelectromicroscopical localization of the three neurofilament triplet proteins along neurofilaments of culture d dorsal root ganglion neurones. Experimental Cell Research 137:403–13. {aJCP}
Sheehan, D. (1936) Discovery of the autonomic nervous system. Archives of Neurology and Psychiatry 35:1081–1115. {aJCP}
Sherrington, C. S. (1906) The integrative action of the nervous system.
Scribner’s. {aJCP, VGZ}
Sibley, C. G., Ahlquist, J. E. & Monroe, B. L. Jr. (1988) A classification of the living birds of the world based on DNA-DNA hybridation studies. Auk 105:409–23. {rJCP}
Simmons, M. A. (1985) The complexity and diversity of synaptic transmission i n the prevertebral sympathetic ganglia. Progress in Neurobiology 24:43–93. {WLN}
Skofitsch, G., Zamir, N., Helke, C. J., Savitt, J. M. & Jacobowitz, D. M.
(1985) Corticotrophin-releasing factor-like immunoreactivity in sensory ganglia and capsaicin-sensitive neurons of the rat central nervous system: Colocalization with other neuropeptides. Peptides 6:307–18. {aJCP}
Smith, G. P., Jerome, C, Cushin, B. J., Eterno, R. & Simansky, K. J. (1981) Abdominal vagotomy blocks the satiety effect of cholecystokinin in th e rat. Science 213:1036–37. {SH}
Smith, P. G., Slotkin, T. A. & Mills, E. (1982) Development of sympathetic ganglionic transmission in the neonatal rat: Pre- and postganglionic nerve response to asphyxia and 2-deoxyglucose. Neuroscience 7:501–07. {aJCP}
Sneath, P. H. A. (1962) The construction of taxonomic groups. In: Microhial classification. Twelfth symposium of the Society for General Microbiology. Cambridge University Press. {aJCP}
Sommer, E. W., Kazimierczak, J. & Droz, B. (1985) Neuronal subpopulations in the dorsal root ganglion of the mouse as characterized by combination of ultrastructural and cytochemical features. Brain Research 346:310–26. {arJCP}
Spitzer, N. C. (1979) Ion channels in development. Annual Review of Neuroscience 2:363–97. {LM}
Stace, C. L. (1980) Plant taxonomy and biosystematics. Edward Arnold. {rJCP}
Stansfield, C. E., & Wallis, D. I. (1985) Properties of visceral primary afferent neurons in the nodose ganglian of the rabbit. Journal of Neurophysiology 54:245–60. {DG}
Strauss, P. & Duda, P. (1982) Some electrophysiologic properties of neurons of the spinal ganglia of cats and their activation from peripheral receptors. Bratislava Lek Listy 78:526–36. {LM}
Sugiura, Y., Hosoya, Y., Ito, R. & Kohno, K. (1988) Ultrastructural features of functionally identified primary afferent neurons with C (unmyelinated)-fibers of the guinea pig: Classification of dorsal root ganglion cell type with reference to sensory modality. Journal of Comparative Neurology 276:265–78. {JS}
Swanson, S. W., & Sawchenko, P. E. (1983) Hypothalamic integration: Organization of the paraventricular and supraoptic nuclei. Annual Review of Neuroscience 6:269–324. {DLF}
Szolcsanyi, J. (1982) Capsaicin-type pungent agents producing pyrexia. In: Handbook of experimental pharmacology, vol. 60, ed. Milton, A. S., Springer. {JS}
(1984) Capsaicin-sensitive chemoceptive neural system with dual sensory-efferent function. In: Antidromic vasodilation and neurogenic inflammation, ed. Chahl, L. A., Szolcsanyi, J. & Lembeck, F.. Akademiai Kiado. {JSD, GJ, JS}
(1987) Selective responsiveness of polymodal nociceptors of the rabbit ear to capsaicin, bradykinin, and ultra-violet irradiation. Journal of Physiology 388:9–23. {JS}
(1988) Antidromic vasodilatation and neurogenic inflammation. Agents and Actions 23:4–11. {JS}
(1989) Capsaicin irritation, and desensitization: Neurophysiological bases and future perspectives. In: Chemical irritation in the nose and mouth, ed. Green, B. & Mason, J. R.. May and Baker. {CAM}
Szolcsanyi, J., Anton, F., Reeh, P. W. & Handwerker, H. O. (1988) Selective excitation by capsaicin of mechano-heat sensitive nociceptors in the rat skin. Brain Research 446:262–68. {GJ, CAM, JS}
Szolcsanyi, J., Westerman, R. A., Magerl, W. & Pinter, E. (1988) Capsaicin-sensitive cutaneous sense organs: Nerve terminals with multiple functions. Regulatory Peptides 22:180. {JS}
Tennyson, V. M. (1965) Electron microscopic study of the developing neuroblast of the dorsal root ganglion of the rabbit embryo. Journal of Comparative Neurology 124:267–318. {aJCP}
Tervo, T., Ferenc, J., Huikuri, K. T., Toth, I. & Palkama, A. (1979) Fine structure of sensory nerves in the rat cornea: An experimental nerve degeneration study. Pain 6:57–70. {aJCP}
Thuneberg, L. (1982) interstitial cells of Cajal: Intestinal pacemaker cells? Adv. Anat. Embryol. Cell Biol. 71:1–130. {SK}
Traub, R. J., & Mendell, L. M. (1988) Spinal projection of individual small afferent fibers. Journal of Neurophysiology 59:41–55. {LM}
Tuchscherer, M. M., & Seybold, V. S. (1985) Immunohistochemical studies of substance P, cholecystokinin-octapeptide, and somatostatin in dorsal root ganglia of the rat. Neuroscience 14:593–605. {aJCP}
Wiesenfeld-Hallin, Z. (1986) Substance P and somatostatin modulate spinal cord excitability via physiologically different sensory pathways. Brain Research 372:172–75. {aJCP}
Williams, L. R., Varon, S., Peterson, G. M., Wictorin, K., Fischer, W., Bjorklund, A. & Gage, F. H. (1986) Continuous infusion of nerve growth factor prevents basal forebrain neuronal death after fimbria-fornix transection. Proceedings of the National Academy of Sciences (USA) 83:9231–35. {DLF}
Willis, T. (1664) The anatomy of the brain and nerves, trans. Pordage, ed. Feindel, W.. Reprinted 1965. McGill Universit y Press. {aJCP}
Willis, W. D. Jr. (1985) The pain system: The neural basis of nociceptive transmission in the mammalian nervous systems. Karger. {aJCP}
Windle, W. F. (1944) Genesis of somatic motor function in mammalian embryos: A synthesizing article. Physiological Zoology 17:247–60. {aJCP}
Winter, J. (1987) Characterization of capsaicin-sensitive neurones in adult rat dorsal root ganglion cultures. Neuroscience Letters 80:134–40. {CAM}
Wood, J. N., Winter, J., James, I. F., Rang, H., Yeats, J. & Bevan, S. (1988) Capsaicin-induced ion fluxes in dorsal root ganglion cells in culture. Neuroscience 8:3208–20. {CAM}
Xue, Z. G., Smith, J. & Le Douarin, N. M. (1985) Differentiation of catecholaminergic cells in cultures of embryonic avian sensory ganglia. Proceedings of the National Academy of Sciences of the United States of America 82:8800–4. {aJCP}
Yox, D. P., & Ritter, R. C. (1988) Capsaicin attenuates suppression of sham feeding induced by intestinal nutrients. American Journal of Physiology 255:R569–74. {DPY}
Yox, D. P., Stokesberry, H. & Ritter, R. C. (1988) Vagotomy attenuates suppression of sham feeding induced by intestinal nutrients. Society for Neuroscience Abstracts 14:1197. {DPY}
Yuan, C. S., & Barber, W. D. (in press) Brain stem evoked response to dorsal vagal gastric input from the proximal stomach. Journal of Autonomic Nervous System. {SH}
Zavarzin, A. A. (1950) Sotchinenia, Moscow, Leningrad, vol. 1. {VGZ}
Zimmer, L., Meliza, L. & Hsiao, S. (1976) Effects of cervical and subdiaphragmatic vagotomy on volemic and osmotic thirst. Physiology ir Behavior 16:665–70. {SH}
Loading metrics...
