References
- Brownell W E, Bader C R, Bertrand D, De Ribaupierre Y. Evoked mechanical responses of isolated cochlear outer hair cells. Science 1985; 227: 194–196
- Canlon B, Miller J, Flock Å, Borg E. Pure tone overstimulation changes the micromechanical properties of the inner hair cell stereocilia. Hear Res 1987; 30: 65–72
- Engström H, Ades H W, Andersson A. Structural pattern of the organ of Corti: a systematic mapping of sensory cells and neural elements. Williams & Wilkins, Baltimore, MD. 1966
- Iurato S. Cochlear duct. Submicroscopic structure of the inner ear, S Iurato. Pergamon Press, Oxford 1967; 59–168
- Kelly JP. Cellular organization of the guinea pig's cochlea. Acta Otolaryngol (Stockh) 1989; 97–112, Suppl 467
- Kronester-Frei A. infrastructure of the different zones of the tectorial membrane. Cell Tissue Res 1978; 193: 11–23
- Kronester-Frei A. Localization of the marginal zone of the tectorial membrane in situ, unfixed, and with in-vivo-like ionic milieu. Arch Otorhinolaryngol 1979a; 224: 3–9
- Kronester-Frei A. The effect of changes in endolymphatic ion concentrations on the tectorial membrane. Hear Res 1979b; 1: 81–94
- Lim DJ. Functional structure of the organ of Corti: a review. Hear Res 1986; 22: 117–146
- Santi PA. Organ of Corti surface preparations for computer-assisted morphometry. Hear Res 1986; 24: 179–187
- Santi P A, Mitchell W H, Harrison RG. A computer-assisted morphometric analysis of the organ of Corti. Hear Res 1986; 24: 189–201
- Spoendlin H. The organization of the cochlear receptor. Advances in Oto-rhino-Iaryngology, L. Luedi, S. Karger, Basel, NY 1966; 121–124
- Spoendlin H. Innervation patterns in the organ of Corti of the cat. Acta Otolaryngol (Stockh) 1969; 67: 239–254
- Ulfendahl M, Flock Å, Khanna SM. A temporal bone preparation for the study of cochlear mechanics at the cellular level. Hear Res 1989; 40: 55–64
- Wright A. Dimensions of the cochlear stereocilia in man and the guinea pig. Hear Res 1984; 13: 89–98