[1]Cotanche DA, Dopyera CEJ. Hair cell and supporting cell response to acoustic trauma in the chick cochlea.Hear Res,1990.46:29.

[2]Tucci DL.Rubel EW. Physiological status of regenerated hair cells in the avian inner ear following aminoglycoside ototoxicity. Otolaryngol Head Neck Surg.1990.103:443.

[3]Cotanche DA. Lee KH, Stone JS, et al. Hair cell regeneration in the bird cochlea following noise damage or ototoxic drug damage. Anat Embryol.1994.189:1.

[4]Girod DA, Duckert LG, Rubel EW. Posslble precursors of regenerated hair cells in the avian cochlea following acoustic trauma. Hear Res,1989,42:175.

[5]Oesterle EC. Cunningham DE, Rubel EW. Ultrastructure of hyaline,border and vacuole cells in chick inner ear. J Comp Neurol,1992.318:64.

[6]Warchol ME, Corwin JT. Hair cell regeneration in vitro:determination of the latency and pattern of cell proliferation. Assoc Res Otolaryngol Abstr.1992,15:106.

[7]Warchol ME, Corwin JT. Regenerative proliferation in organ cultures of avian cochlea: identification of the progenitors and determination of the latency of the proliferative response. J Neurosci,1996.16:5466.

[8]Cotanche DA, Messana EP, Ofsie MS. Migration of hyaline cell into the chick basilar papilla during severe noise damage. Hear Res.1995,91:148.

[9]Raphael Y. Evidence for Supporting cell mitosis in response to acoustic trauma in the avian inner ear. J Neurocytol.1992,21:663.

[10]Pardee AB. Gl events and regulation of cell proliferation. Science,1989,246:603.

[11]Stone JS.Cotanche DA. Identification of the time of S phase and patterns of cell proliferation during hair cell regeneration in the chick cochlea. J Comp Neurol.1994.341:50.

[12]Bhave SA, Stone JS. Rubel EW. et al. Cell cycle progression in gentamicin-damaged avian cochlea.J Neurosci.1995,15:4618.

[13]Weisleder P. Rubel EW. Hair cell regeneration after streptomycin toxicity in the avian vestibular epithelium. J Comp Neurol.1993.331:97.

[14]Tsue TT. Watling DL, Weisleder P, et al. Identification of hair cell progenitors and intermitotic migration of their nuclei in the normal and regenerating avian inner ear. J Neurosci.1994.14:140.

[15]Adler HJ. Raphael Y. New hair cell arise from supporting cell conversion in the acoustically damaged chick inner ear. Neurosci Lett.1996,205:17.

[16]Oesterle EC. Tsue TT. Reh TA. et al. Hair-cell regeneration in organ cultures of the postnatal chicken inner ear. Hear Res.1993.70:85.

[17]Corwin JT. Jones JE. Katayama A. et al. Hair cell regeneration: the identitles of progenitor cells. potential triggers and instructive cues. Ciba Foundation Symposium 160.Wiley. New York.103.

[18]Tsue TT .Oesterle EC. Rubel EW. Diffusible factors regulate hair cell regeneration in the avian inner ear. Proc Natl Acad Sci USA.1994.91:1584.

[19]Leof EB. Wyk JJ van. O’keefe EJ. et al. Epidermal growth factor (EGF) is required only during the traverse of early GI in PDGF—stimulated densityarrested BALB/c-3T3 cells. Exp Cell Res.1983.147:202.

[20]Represa J. Miner C. Barbosa E. et al. Bombesin and other growth factors activate cell proliferation in chick embryo otic vesicles in culture. Development.1988.102:87.

[21]Represa J. Bernd P. Nerve growth factor and serum differentially regulate development of the embryonic otic vesicles and cochleovestibular ganglion in vitro.Devel Biol.1989.134:21.

[22]Xu XM. Corwin JT. Expression of a protein with EGF-like immuno reactivity is triggered by treatment that evoke hatr cell regeneration. Soc Neurosci.1992.588:15.

[23]Zheng JL. Helbig C .Gao WQ. lnduction of cell proliferation by fibroblast and insulin-like growth factors in pure rat Inner ear epithelial cell cultures. J Neurosci.1997.17:216.

[24]Lee KH. Cotanche DA. Potential role of bFGF and retinoic acid in regeneration of chicken cochlear hair cells. Hear Res.1996.94:1.

[25]Lambert PR. Inner ear hair cell regeneration in a mammal: identification of a triggering factor. Laryngoscope.1994.104:701.

[26]Yamashita H. Oesterle EC. Induction of cell proliferation in mammalian inner ear sensory epithelia by transforming growth factor and epid