Hostname: page-component-78c5997874-v9fdk Total loading time: 0 Render date: 2024-11-05T09:44:16.847Z Has data issue: false hasContentIssue false

Research on the Efferent Innervation of the Inner Ear

Published online by Cambridge University Press:  29 June 2007

G. Rossi
Affiliation:
Otorhinolaryngological Clinic, University of Turin (Director: Professor F. Brunetti); from the Department of Anatomy and Pathological Histology, University of Turin (Director: Professor G. Mottura); and from the Department of Normal Human Anatomy, University of Sassari (Director: Professor G. Filogamo).
G. Cortesina
Affiliation:
Otorhinolaryngological Clinic, University of Turin (Director: Professor F. Brunetti); from the Department of Anatomy and Pathological Histology, University of Turin (Director: Professor G. Mottura); and from the Department of Normal Human Anatomy, University of Sassari (Director: Professor G. Filogamo).

Abstract

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Research Article
Copyright
Copyright © JLO (1984) Limited 1963

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Addens, J. L. (1934) Psychiat. neurol. Bl. (Amst.), p. 274.Google Scholar
Bechterew, W. (1885) Neurol. Zbl., 4, 489.Google Scholar
Bischoff, E. (1899) Neurol. Zbl., 18, 1014.Google Scholar
Borghesan, E. (1930) Atti Clin. oto-rino-laring. Univ. Roma, 28, 107.Google Scholar
Borghesan, E. (1959) Acta oto-laryng. (Stockh.), 50, 154.Google Scholar
Boord, R. L. (1961) Exp. Neurol., 3, 225.CrossRefGoogle Scholar
Brodal, A. (1960) In “Neural mechanisms of the auditory and vestibular systems”, edited by Rasmussen, G. L. and Windle, W. F.Springfield, Ill., p. 224.Google Scholar
Brodal, A., and Pompeiano, O. (1957) J. Anat. (Lond.), 91, 438.Google Scholar
Carpenter, M. B. (1960) In “Neural mechanisms of the auditory and vestibular systems”, edited by Rasmussen, G. L. and Windle, W. F.Springfield, Ill. p. 297.Google Scholar
Carpenter, M. B., Bard, D. S., and Alling, F. A. (1959) J. Comp. Neur., 111, 1.Google Scholar
Churchill, J. A., Schuknecht, H. F., and Doran, R. (1956) Laryngoscope (St. Louis), 66, 1.CrossRefGoogle Scholar
Deganello, U. (1899) quoted by Muskens.Google Scholar
DelBo, M., and Conti, A. (1961) Arch. ital. Otol., 72, 44.Google Scholar
Derbyshire, A. J., and Davis, H. (1935a) Amer. J. Physiol., 113, 476.Google Scholar
Derbyshire, A. J., and Davis, H. (1935b) Amer. J. Physiol., 113, 35.CrossRefGoogle Scholar
Desmedt, J. E. (1960) In “Neural mechanisms of the auditory and vestibular systems”, edited by Rasmussen, G. L. and Windle, W. F.Springfield, Ill., p. 152.Google Scholar
Desmedt, J. E., and Mechelse, K. (1957) C. R. Soc. Biol. (Paris), 151, 2209.Google Scholar
Desmedt, J. E., and Monaco, P. (1961a) Nature (Lond.), 192, 1263.Google Scholar
Desmedt, J. E., and Monaco, P. (1961b) Arch. int. Pharmacodyn., 132, 492.Google Scholar
Dohlman, G., Farkashidy, J., and Salonna, F. (1958) J. Laryng., 72, 984.CrossRefGoogle Scholar
Dohlman, G. F. (1960) In “Neural mechanisms of the auditory and vestibular systems”, edited by Rasmussen, G. L. and Windle, W. F.Springfield, Ill., p. 258.Google Scholar
Engström, H. (1958) Acta oto-laryng., (Stockh.), 49, 109.Google Scholar
Engström, H. (1960) In “Neural mechanisms of the auditory and vestibular systems”, edited by Rasmussen, G. L. and Windle, W. F., Springfield, Ill., p. 48.Google Scholar
Engström, H., and Wersäll, J. (1953a) Acta oto-laryng. (Stockh.), 43, 1.Google Scholar
Engström, H., and Wersäll, J. (1953b) Acta oto-laryng. (Stockh.), 43, 323.CrossRefGoogle Scholar
Engström, H., and Wersäll, J. (1958a) Exp. Cell. Res., suppl. 5, p. 460.Google Scholar
Engström, H., and Wersäll, J. (1958b) Int. Rev. Cytol., 7, 535.CrossRefGoogle Scholar
Ernyei, I. (1936) Arch. Ohrenheilk., 141, 343.Google Scholar
Fernandez, C. (1961) Laryngoscope (St. Louis), 61, 1152.CrossRefGoogle Scholar
Fex, J. (1959) Acta oto-laryng (Stockh.), 50, 540.Google Scholar
Fex, J. (1962) Acta physiol. scand., 55, suppl. 189.Google Scholar
Gacek, R. R. (1960) In “Neural mechanisms of the auditory and vestibular systems” edited by Rasmussen, G. L. and Windle, W. F.Springfield, Ill. p. 276.Google Scholar
Gacek, R. R. (1961) Arch. Otolaryng., 74, 690.Google Scholar
Galambos, R. (1956a) Ann. Otol. (St. Louis), 65, 1053.Google Scholar
Galambos, R. (1956b) J. Neurophysiol., 19, 424.Google Scholar
Galambos, R. (1958) Laryngoscope (St. Louis), 68, 388.CrossRefGoogle Scholar
Galambos, R. (1960) In “Neural mechanisms of the auditory and vestibular systems”, edited by Rasmussen, G. L. and Windle, W. F.Springfield, Ill. p. 137.Google Scholar
Gerebtzoff, M. A. (1953) Acta anat. (Basel), 19, 366.CrossRefGoogle Scholar
Gersuni, G. V., Kojevnikov, V. A., Marusewa, A. M., Avakian, R.Rodionowa, E. A., Altman, J. A., and Soroko, V. I. (1960) quoted by Galambos, R. (1960).Google Scholar
Gisselsson, L. (1949) Acta oto-laryng. (Stockh.), 37, 268.Google Scholar
Gisselsson, L. (1950) Acta oto-laryng. (Stockh.), suppl. 82.Google Scholar
Gisselsson, L. (1952) Acta oto-laryng. (Stockh.), 42, 208.Google Scholar
Gisselsson, L. (1955) Arch. Ohr.-, Nas.-, u. Kehlk. Heilk., 167, 274.Google Scholar
Gisselsson, L. (1960) Acta oto-laryng. (Stockh.), 51, 636.Google Scholar
Held, H. (1891) Arch. Anat. Physiol. (Lpz.), Anat. Abt., 20, 271.Google Scholar
Hilding, D., and Wersäll, J. quoted by Wersäll, J., Hilding, D., and Lundquist, P. G.Google Scholar
Hilding, D., and Wersäll, J., and Sjöquist, F. (1961) quoted by Wersäll, J., Hilding, D., and Lundquist, P. G.Google Scholar
Hofmann, F. (1908) Arb. neurol. Inst. Univ. Wien., 14, 76.Google Scholar
Holmstedt, B. (1957a) Acta physiol. scand., 40, 322.Google Scholar
Holmstedt, B. (1957b) Acta physiol scand., 40, 331.Google Scholar
Ireland, P. E., and Farkashidy, J. (1961) Ann. Otol. (St. Louis), 70, 490.Google Scholar
Iurato, S. (1962a) Arch. Otolaryng., 75, 312.Google Scholar
Iurato, S. (1962b) Exp. Cell. Res., 27, 162.Google Scholar
Jouvet, M., and Desmedt, J. E. (1956) C. R. Acad. Sci. (Paris), 243, 1916.Google Scholar
Kaida, Y. (1929a) Fukuoka Acta med., 22, 3.Google Scholar
Kaida, Y. (1929b) Arch. Ohr. Nas.-, u. Kehlk. Heilk, 123, 62.CrossRefGoogle Scholar
Kaplan, M. (1912–13) Arb. neurol., Inst. Univ. Wien, 20, 375.Google Scholar
Kavamoto, K., and Kaneko, Y. (1959) J. Otorhinolaryng. Soc. Jap., 62, 2338.Google Scholar
Kimmel, D. L. (1941) J. comp. Neurol., 74, 447.CrossRefGoogle Scholar
Klossowsky, B. (1932) Arch. Psychiat. Nervenkrankh., 98, 255.Google Scholar
Koelle, G. B. (1950) J. Pharmacol. exp. Ther., 100, 158.Google Scholar
Koelle, G. B. (1951) J. Pharmacol. exp. Ther., 103, 153.Google Scholar
Koelle, G. B. (1954) J. comp. Neurol., 100, 211.Google Scholar
Koelle, G. B. (1955) J. Pharmacol. exp. Ther., 114, 167.Google Scholar
Koelle, G. B., and Friedenwald, J. S. (1949) Proc. Soc. exp. Biol. (N.Y.), 70, 617.Google Scholar
Kohnstamm, O. (1902) Verh. kongr. inn. Med., 20, 361.Google Scholar
Kolliker, A. (1896) “Handbuch der Gewebelehere des Menschen”, 6th edition, Leipzig. Vol. 12.Google Scholar
Leidler, R. (19121913) Arb. neurol., Inst. Univ. Wien., 20, 256.Google Scholar
Leidler, R. (1914) Arb. neurol., Inst. Univ. Wien, 21, 151.Google Scholar
Lewandowski, M. (1904) “Untersuchungen über die Leitungsbahnen des Truncus cerebri und ihren Zusammenhang mit denen der Medulla spinalis und des Cortex cerebri”. JenaGoogle Scholar
Martini, V. (1940) Boll. Soc. ital. Biol. Sper., 15, 1102.Google Scholar
Martini, V. (1941a) Boll. Soc. ital. Biol. sper., 16, 70.Google Scholar
Martini, V. (1941b) Arch. Sci. Biol. (Bologna), 27, 94.Google Scholar
Meessen, H., and Olszewski, J. (1949) “A cytoarchitectonic atlas of the rhombencephalon of the rabbit”. New York and Basel.Google Scholar
Muskens, L. J. J. (1914) Brain, 36, 353.Google Scholar
Olszewski, J., and Baxter, D. (1954) “Cytoarchitecture of the human brain stem”. New York and Basel.Google Scholar
Onufrowicz, B. (1885) Arch. Psychiat. Nervenkr., 16, 711.CrossRefGoogle Scholar
Papez, J. W. (1930) Arch. Neurol. Psychiat. (Chicago), 24, 1.Google Scholar
Petroff, A. E. (1955) Anat. Rec., 121, 352.Google Scholar
Polyak, S. (1926) J. Anat. (Lond.), 60, 465.Google Scholar
Portmann, M., Portmann, G., and Portman, C. (1953) Acta oto laring. (Stockh.), 43, 226.CrossRefGoogle Scholar
Portmann, M. (1952a) “Les fibres nerveuses efférentes cochléaires”. Delmas, Bordeaux.Google Scholar
Portmann, M. (1952b) “Les fibres nerveuses efférentes cochléaires”. Thèse, Bordeaux.Google Scholar
Portmann, M., and Portmann, C. (1951) Rev. Laryng. (Bordeaux), 72, 737.Google Scholar
Quix, F. H. (1952) quoted by Portmann, M. (1952)a,b.Google Scholar
Ramon, y Cajal S. (1896) “Beitrag zum Studiem der Medulla oblongata, des Kleinhirns und des Ursprungs der Gehirnnerven”. Leipzig.Google Scholar
Ramon, y Cajal S. (19091911) “Histologie du système nerveux de l'homme et des vertébrés”. Paris.Google Scholar
Rasmussen, G. L. (1932) Anat. Rec., 52, 32.Google Scholar
Rasmussen, G. L. (1942) Anat. Rec., 82, 441.Google Scholar
Rasmussen, G. L. (1946) J. Comp. Neurol., 84, 141.Google Scholar
Rasmussen, G. L. (1953) J. comp. Neurol., 99, 61.Google Scholar
Rasmussen, G. L. (1960) In “Neural mechanisms of the auditory and vestibular systems”, edited by Rasmussen, G. L. and Windle, W. F.Springfield, Ill., p. 105.Google Scholar
Rasmussen, G. L., and Gacek, R. (1958) Anat. Rec., 130, 361.Google Scholar
Rossi, G. (1960) Ital. Gen. Rev., O.R.L., 2, 587.Google Scholar
Rossi, G. (1962) Acta oto laryng. (Stockh.), suppl. 170.Google Scholar
Rossi, G. (1962) Acta oto-rhino-laryng., belg. (in press).Google Scholar
Rossi, G., and Cortesina, G. (1962a) Ann. Laring. (Torino), 61, 435.Google Scholar
Rossi, G., and Cortesina, G. (1962b) Minerva otorinolaring., 12, 173.Google Scholar
Schuknecht, H. F., Churchill, J. A., and Doran, R. (1959) A.M.A. Arch. Otolaryng., 69, 549.Google Scholar
Shaner, R. F. (1934) J. comp. Neurol., 60, 5.Google Scholar
Smith, C., and Dempsey, E. W. (1957) Amer. J. Anat., 100, 337.Google Scholar
Smith, C. A. (1961) Ann. Otol. (St. Louis), 70, 504.Google Scholar
Smith, C. A., and Sjöstrand, F. S. (1961) J. Ultrastruct. Res., 5, 109.Google Scholar
Spoendlin, H. (1957) Practica oto-rhino-laryng. (Basel) 19, 192.Google Scholar
Spoendlin, H. (1959) Practica oto-rhino-laryng. (Basel), 21, 34.Google Scholar
Spoendlin, H. (1960) Acta oto-laryng. (Stockh.), 52, 111.Google Scholar
Van Gehuchten, P. (1927) Rev. Oto-neuro-ophtal., 5, 777.Google Scholar
Vinnikov, Y. A., and Titova, L. K. (1958) quoted by Gerebtzoff, M. A. (1959). “Cholinesterases. A histochemical contribution to the solution of some functional problems”. London.Google Scholar
Vosteen, K. H. (1961) Arch. Ohr.-, Nas.-, u. Kehlk.-Heilk., 178, 1.Google Scholar
Wersäll, J. (1956) Acta oto-laryng. (Stockh.), suppl. 126.Google Scholar
Wersäll, J. (1960) In “Neural mechanisms of the auditory and vestibular systems”, edited by Rasmussen, G. L. and Windle, W. F.Springfield, Ill. p. 247.Google Scholar
Wersäll, J., Hilding, D., and Lundquist, P. G. (1961) Arch. Ohr.-, Nas-., u. Heilk.- Heilk., 178, 106.Google Scholar
Windle, W. F. (1933) J. comp. Neurol., 58, 643.Google Scholar
Winkler, C. (1921) “Manuel de neurologie”. Haarlen, Vol. 7 (i)Google Scholar
Yoshida, I. (1925) Fol. anat. jap., 3, 111.Google Scholar