References
- Cody A R, Robertson D. Variability of noise-induced damage in the guinea pig cochlea: Electrophysiological and morphological correlates after strictly controlled exposures. Hear Res 1983; 9: 55–70
- Henry K R. Influence of genotype and age on noise-induced auditory losses. Behav Genet 1982; 12: 563–573
- Borg E. Auditory threshold in rats of different age and strain. A behavioral and electrophysiologic study. Hear Res 1982; 8: 101–115
- Borg E. Noise-induced hearing loss in normotensive and spontaneously hypertensive rats. Hear Res 1982; 8: 117–130
- Mikaelian D O. Development and degeneration of hearing in the C57/b16 mouse: Relation of electrophysiologic responses from the round window and cochlear nucleus to cochlear anatomy and behavioral responses. Laryngoscope 1979; 89: 1–15
- Henry K R, Chole R A. Genotypic differences in behavioral, physiological and anatomical expressions of age-related hearing loss in the laboratory mouse. Audiology 1980; 19: 369–383
- Hunter K P, Willott J F. Aging and the auditory brainstem response in mice with severe or minimal presbycusis. Hear Res 1987; 30: 207–218
- Li H S, Borg E. Age-related loss of the auditory sensitivity in two mouse genotypes. Acta Otolaryngol (Stockh) 1991; 111: 827–834
- Harrison D E, Archer J R. Physiological assays for biological age in mice: Relationship of collagen, renal function, and longevity. Exp Aging Res 1983; 9: 245–251
- Henry K R. Lifelong susceptibility to acoustic trauma: Changing patterns of cochlear damage over the life span of the mouse. Audiology 1983; 22: 372–383
- McPhee J R, Van D, Water T R. Structural and functional development of the ear;. Physiology of the Ear, A F Jahn, J Santos-Sacchi. Raven Press, New York 1988; 221–242
- Shnerson A, Pujol R. Age-related changes in the C57BL/6J mouse cochlea. I. Physiological findings. Dev Brain Res 1982; 2: 65–75
- Shone G, Altschuler R A, Miller J M, Nuttall A L. The effect of noise exposure on the aging ear. Hear Res 1991; 56: 173–178
- Salvi R J, Hamernik R P, Henderson D. Auditory nerve activity and cochlear morphology after noise exposure. Arch Otorhinolaryngol 1979; 224: 111–116
- McFadden D. The curious half-octave shift: Evidence for a basalward migration of the traveling-wave envelope with increasing intensity;. Basic and Applied Aspects of Noise-Induced Hearing Loss, R J Salvi, D Henderson, R P Hamernik, W Coletti. Plenum Press, New York 1986; 295–312
- Buck K, Franke R. Can TTS be an indicator for individual susceptibility to PTS?. Basic and Applied Aspects of Noise-Induced Hearing Loss, R J Salvi, D Henderson, R P Hamernik, W Coletti. Plenum Press, New York 1986; 441–457
- Li H S. Influence of genotype and age on acute acoustic trauma and recovery in CBA/Ca and C57BL/6J mice. Acta Otolaryngol (Stockh) 1992; 112: 956–967