References
- Flock Å, Strelioff D. Graded and nonlinear mechanical properties of sensory hairs in the mammalian hearing organ. Nature 1984; 310(16)597–599
- Khanna S M, Flock Å, Ulfendahl M, Decraemer WF. Middle ear vibration and sound pressure measurements in the isolated cochlea preparation. Acta Otolaryngol (Stockh) Suppl 1989; 467: 131–137
- Khanna S M, Teich MC. Spectral characteristics of the response of primary auditory-nerve fibers to amplitude-modulated signals. Hear Res 1989; 39: 143–158
- Khanna S M, Ulfendahl M, Flock Å. Waveforms and spectra of cellular vibrations in the organ of Corti. Acta Otolaryngol (Stockh) Suppl 1989; 467: 189–193
- Koester C J, Khanna S M, Rosskothen H, Tackaberry RB. Incident light optical sectioning microscope for visualization of cellular structures in the inner ear. Acta Otolaryngol (Stockh) Suppl 1989; 467: 27–33
- Lund D T, Khanna SM. A digital system for the generation of acoustic stimuli and the analysis of cellular vibration data. Acta Otolaryngol (Stockh) Suppl 1989; 467: 77–89
- Russell I J, Richardson G P, Cody AR. Mechanosensitivity of mammalian auditory hair cells in vitro. Nature 1986; 321: 517–519
- Ulfendahl M, Flock Å, Khanna SM. A temporal bone preparation for the study of cochlear mechanics at the cellular level. Hear Res 1989a; 40: 55–64
- Ulfendahl M, Flock Å, Khanna SM. Isolated cochlea preparation for the study of cellular vibrations and motility. Acta Otolaryngol (Stockh) Suppl 1989b; 467: 91–96
- Willemin J F, Khanna S M, Dändliker R. Heterodyne interferometer for cellular vibration measurement. Acta Otolaryngol (Stockh) Suppl 1989; 467: 35–42