期刊
FRONTIERS IN BIOENGINEERING AND BIOTECHNOLOGY
卷 10, 期 -, 页码 -出版社
FRONTIERS MEDIA SA
DOI: 10.3389/fbioe.2022.983510
关键词
middle ear; eardrum; ossicles; ligaments; muscles; synovial joints; kinematics; mechanics
资金
- National Science Foundation
- [NSF CBET-1829310]
The middle ear is an interface between air and fluid in terrestrial vertebrates. Contrary to traditional views, it is suggested that the middle ear functions through an impedance-matching mechanism rather than an impedance transformer. Acoustico-mechanical measurements of middle ear function and the development of middle ear models have contributed to this understanding.
The middle ear is part of the ear in all terrestrial vertebrates. It provides an interface between two media, air and fluid. How does it work? In mammals, the middle ear is traditionally described as increasing gain due to Helmholtz's hydraulic analogy and the lever action of the malleus-incus complex: in effect, an impedance transformer. The conical shape of the eardrum and a frequency-dependent synovial joint function for the ossicles suggest a greater complexity of function than the traditional view. Here we review acoustico-mechanical measurements of middle ear function and the development of middle ear models based on these measurements. We observe that an impedance-matching mechanism (reducing reflection) rather than an impedance transformer (providing gain) best explains experimental findings. We conclude by considering some outstanding questions about middle ear function, recognizing that we are still learning how the middle ear works.
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