Abstract
To study the process of aural cholesteatoma formation, we used gerbilline temporal bones to examine histologically the early stages of spontaneous cholesteatomas associated with experimentally induced otitis media with effusion (OME) following electric cauterizations of the eustachian tube. Epidermal growth factor (EGF) was then localized immunohistochemically in the pars flaccida of normal ears and the forming spontaneous cholesteatomas. Findings in the ears with the early spontaneous cholesteatomas were effusion inside the pars flaccida and hypertrophy and hyperkeratosis of the pars flaccida. Findings in the ears with experimental OME involved an effusion in the whole middle ear cavity as well as hypertrophy and hyperkeratosis in both the pars flaccida and pars tensa. The incidence of ear drum changes was higher in the experimental OME group than in control animals without cauterization. EGF was localized in the mucous layer of normal drums, the mucous layer and lamina propria of drums with hypertrophy alone, and all lalers in drums with hypertrophy and hyperkeratosis. EGF was especially positive in the cytoplasms of transformed cuboidal cells. These findings suggest that EGF within the transformed mucous layer may play an important role as a biochemical factor in developing cholesteatomas.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Blay J, Brown KD (1985) Epidermal growth factor promotes the chemotactic migration of cultured rat intestinal epithelial cells. J Cell Physiol 124:107–112
Carpenter G, Cohen S (1979) Epidermal growth factor. Annu Rev Biochem 48:193–216
Chole RA, Henry KR, McGinn MD (1981) Cholesteatoma: spontaneous occurrence in the Mongolian gerbil, Meriones unguiculatis. Am J Otol 2:204–210
Goto Y (1990) Epidermal growth factor in cholesteatoma. The first report: the localization in the cholesteatoma tissue. J Otolaryngol Jpn 93:1186–1191
Huang CC, Alm JM, Huang TY, Kamide Y, Fujioka O, Sasaki H, Huang EA, Chao WY, Yabe T (1993) Growth factors' role in the growth of cholesteatoma. Cholesteatoma and mastoid surgery. Kugler, Amsterdam, pp 211–214
Means LW, Daniel HJ, Jordan LH, Loesche PJ (1975) Nonsusceptibility to otitis media of the laboratory gerbil, Meriones unguiculatus. Physiol Psychol 3:229–230
Omura F, Makino K, Amatsu M, Itoh H (1993) Experimental and spontaneous cholesteatomas in gerbils. Recent advances in otitis media. Decker, Hamilton, pp 477–478
Proctor B (1989) Surgical anatomy of the ear and temporal bone. Thieme, New York
Sando I, Doyle WJ, Okuno H, Takahara T, Kitajiri M, Coury WJ (1986) A method for the histopathological analysis of the temporal bone and the eustachian tube and its accessory structures. Ann Otol Rhinol Laryngol 95:267–274
Tos M (1981) Experimental tubal obstruction. Changes in middle ear mucosa elucidated by quantitative histology. Acta Otolaryngol (Stockh) 92:51–61
Tos M (1992) Sequelae after secretory otitis and pathogenesis of attic cholesteatoma. Cholesteatoma and mastoid surgery. Kugler, Amsterdam, pp 289–294
Wolfman DE, Chole RA (1986) Experimental retraction pocket cholesteatoma. Ann Otol Rhinol Laryngol 95:639–644
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Omura, F., Makino, K., Amatsu, M. et al. The role of middle ear effusions and epidermal growth factor in cholesteatoma formation in the gerbilline temporal bone. Eur Arch Otorhinolaryngol 252, 428–432 (1995). https://doi.org/10.1007/BF00167314
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00167314