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  • 1
    NIH, National Institute on Deafness and Other Communication Disorders: A Report of the Task Force on the National Strategic Research Plan, pp. 3768, 1989.
  • 2
    Costanzo, R.M.: Neural Regeneration and Functional Reconnection Following Olfactory Nerve Transection in the Hamster. Brain Res, 361: 258266, 1985.
  • 3
    Breipohl, W., Mackay-Sim, A., Grandt, D., et al.: Neurogenesis in the Vertebrate Main Olfactory Epithelium. In: Ontogeny of Olfaction. W.Breipohl (Ed.). Springer-Verlag, Berlin, pp. 2133, 1986.
  • 4
    Oakley, B.: Neuronal-Epithelial Interactions in Mammalian Gustatory Epithelium. CIBA Foundation Symposium 160, John Wiley & Sons, Chichester, England, pp. 277293, 1991.
  • 5
    Raymond, P.A., Reifler, M.J. and Rivlin, P.K.: Regeneration of Goldfish Retina: Rod Precursors are a Likely Source of Regenerated Cells. J Neurobiol, 19: 431463, 1988.
  • 6
    Reh, T.A. and Nagy, T.: A Possible Role for the Vascular Membrane in Retinal Regeneration in Rana catesbienna Tadpoles. Dev Biol, 122: 471482, 1987.
  • 7
    Balak, K.J., Corwin, J.T. and Jones, J.E.: Regenerated Hair Cells Can Originate From Supporting Cell Progeny: Evidence From Phototoxicity and Laser Ablation in the Lateral Line System. J Neurosci, 10: 25022512, 1990.
  • 8
    Corwin, J.T.: Postembryonic Production and Aging in Inner Ear Hair Cells in Sharks. J Comp Neurol, 201: 541553, 1981.
  • 9
    Corwin, J.T.: Perpetual Production of Hair Cells and Maturational Changes in Hair Cell Ultrastructure Accompanying Postembryonic Growth in an Amphibian Ear. Proc Natl Acad Sci USA, 82: 39113915, 1985.
  • 10
    Corwin, J.T. and Cotanche, D.A.: Regeneration of Sensory Hair Cells After Acoustic Trauma. Science, 240: 17721774, 1988.
  • 11
    Ryals, B.M. and Rubel, E.W.: Hair Cell Regeneration After Acoustic Trauma in Adult Coturnix quail. Science, 240: 17741776, 1988.
  • 12
    McFadden, E.A. and Saunders, J.C.: Recovery of Auditory Function following Intense Sound Exposure in the Neonatal Chick. Hear Res, 41: 205216, 1989.
  • 13
    Lippe, W.R., Ryals, B.M. and Westbrook, E.W.: Regeneration of Hair Cells in the Chick Basilar Papilla Following Gentamicin Toxicity. Association for Research in Otolaryngology, 12: 8283, 1989. Abstract.
  • 14
    Tucci, D.L. and Rubel, E.W.: Regenerated Hair Cells in the Avian Inner Ear Following Aminoglycoside Ototoxicity are Functional. Association for Research in Otolaryngology, 12: 8384, 1989. Abstract.
  • 15
    Ryals, B.M., Ten Eyck, B. and Westbrook, E.W.: Ganglion Cell Loss Continues During Hair Cell Regeneration. Hear Res, 43: 8190, 1989.
  • 16
    Bohne, B.A. and Clark, W.W.: Growth of Hearing Loss and Cochlear Lesion With Increasing Duration of Noise Exposure. In: New Perspectives on Noise-Induced Hearing Loss. R.P.Hamernik, D.Henderson and R.Salvi (Eds.). Raven Press, New York, pp. 283302, 1982.
  • 17
    Kohonen, A.: Effect of Some Ototoxic Drugs Upon the Pattern and Innervation of Cochlear Sensory Cells in the Guinea Pig. Acta Otolaryngol Suppl (Stockh), 208: 170, 1965.
  • 18
    Bohne, B.A., Marks, J.E., et al.: Delayed Effects of Ionizing Radiation on the Ear. LARYNGOSCOPE, 95: 818828, 1985.
  • 19
    Bredberg, G.: Cellular Pattern and Nerve Supply of the Human Organ of Corti. Acta Otolaryngol Suppl (Stockh), 236: 1135, 1968.
  • 20
    Bohne, B.A., Gruner, M.M. and Harding, G.W.: Morphological Correlates of Aging in the Chinchilla Cochlea. Hear Res, 48: 7991, 1990.
  • 21
    Bohne, B.A.: Healing of the Noise-Damaged Inner Ear. In: Hearing and Davis: Essays Honoring Hallowell Davis. S.K.Hirsh, D.H.Eldredge, I.J.Hirsh, et al. (Eds.). Washington University Press, St. Louis, pp. 8596, 1976.
  • 22
    Spoendlin, H. and Suter, R.: Regeneration of the VIII Nerve. Acta Otolaryngol (Stockh), 81: 228236, 1976.
  • 23
    Johnsson, L-G. and Hawkins, J.E., Jr.: Symposium on Basic Ear Research. II. Strial Atrophy in Clinical and Experimental Deafness. LARYNGOSCOPE, 82: 11051125, 1972.
  • 24
    Wright, C.G.: Neural Damage in the Guinea Pig Cochlea After Noise Exposure. A Light Microscopic Study. Acta Otolaryngol (Stockh), 82: 8294, 1976.
  • 25
    Lim, D.J.: Ultrastructural Cochlear Changes Following Acoustic Hyperstimulation and Ototoxicity. Ann Otol Rhinol Laryngol, 85: 740751, 1976.
  • 26
    Terayama, Y., Kaneko, Y., Kawamoto, K., et al.: Ultrastructural Changes of the Nerve Elements Following Disruption of the Organ of Corti. I. Nerve Elements in the Organ of Corti. Acta Otolaryngol (Stockh), 83: 291302, 1977.
  • 27
    Terayama, Y., Kaneko, Y., Tanaka, K., et al.: Ultrastructural Changes of the Nerve Elements Following Disruption of the Organ of Corti. II. Nerve Elements Outside the Organ of Corti. Acta Otolaryngol (Stockh), 88: 2736, 1979.
  • 28
    Bohne, B.A.: Location of Small Cochlear Lesions by Phase Contrast Microscopy Prior to Thin Sectioning. LARYNGOSCOPE, 82: 116, 1972.
  • 29
    Richardson, K.C., Jarett, L. and Finke, E.H.: Embedding in Epoxy Resins for Ultrathin Sectioning in Electron Microscopy. Stain Technol, 35: 313323, 1960.
  • 30
    Bohne, B.A., Bozzay, D.G. and Harding, G.W.: Interaural Correlations in Normal and Traumatized Cochleas: Length and Sensory Cell Loss. J Acoust Soc Am, 80: 17291736, 1986.
  • 31
    Webster, D.B. and Webster, M.: Multipolar Spiral Ganglion Neurons Following Organ of Corti Loss. Brain Res, 244: 356359, 1982.
  • 32
    Corwin, J.T. and Warchol, M.E.: Auditory Hair Cells: Structure, Function, Development and Regeneration. Annu Rev Neurosci, 14: 301333, 1991.
  • 33
    Bohne, B.A.: Mechanisms of Noise Damage in the Inner Ear. In: Effects of Noise on Hearing. D.Henderson, R.P.Hamernik, et al. (Eds.). Raven Press, New York, pp. 4168, 1976.