Middle Ear Muscle Dysfunction as The
Cause of Meniere’s Disease

The sensitivity of the auditory system is regulated via two major efferent pathways: the medial olivocochlear system that connects to the outer hair cells, and by the middle ear muscles—the tensor tympani and stapedius. The role of the former system in suppressing otoacoustic emissions has been extensively studied, but that of the complementary network has not. In studies of selective attention, decreases in otoacoustic emissions from contralateral stimulation have been ascribed to the medial olivocochlear system, but the acknowledged problem is that the results can be confounded by parallel muscle activity. Here, the potential role of the muscle system is examined through a wide but not exhaustive review of the selective attention literature, and the unifying hypothesis is made that the prominent “physiological noise” detected in such experiments, which is reduced during attention, is the sound produced by the muscles in proximity to the ear—including the middle ear muscles. All muscles produce low‐frequency sound during contraction, but the implications for selective attention experiments—in which muscles near the ear are likely to be active—have not been adequately considered. This review and synthesis suggests that selective attention may reduce physiological noise in the ear canal by reducing the activity of muscles close to the ear. Indeed, such an experiment has already been done, but the significance of its findings have not been widely appreciated. Further sets of experiments are needed in this area.

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A Fast, “Zero Synapse” Acoustic Reflex: Middle Ear Muscles Physically Sense Eardrum Vibration

Bell¹

2017

J Hear Sci

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The middle ear muscles may be inconspicuous, but they are special. Silently standing guard at the entrance to the inner ear, their role is to spring into action whenever sound input rises, protecting the highly sensitive cochlea from overload. Such a task requires the utmost speed, for sounds can reach damaging levels within milliseconds. Neural-mediated mechanisms are slow, with the acoustic reflex arc taking up to a hundred milliseconds or more. Here, evidence is assembled that the middle ear muscles have recruited an additional, faster mechanism. The proposal is made that these muscles have developed a preflex mechanism -a zero-synapse system inherent to muscle fibres which, in response to vibration, rapidly stiffens the muscles. Preflexes are a developed form of sensitivity to perturbation common to all muscles, and have recently been identified in leg muscles, for example. However, the advantages that preflexes confer to an animal's auditory system have not yet been recognized. Applied to the middle ear muscles, heightened sensitivity to vibration means that any loud sound entering the middle ear causes the muscles to immediately stiffen, providing instant, on-the-spot overload protection. The muscles are therefore self-reflexive -they are both sensors and actuators. It is shown here how the middle ear muscles appear to have the special anatomical and physiological properties required for preflex action. There are strong resemblances to the superfast muscles of bats, birds, and fish, and to the fast flight muscles of insects.

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Middle Ear Muscle Dysfunction as The Cause of Meniere’s Disease

Cited by 5 publications

References 92 publications

Contraction of the stapedius and tensor tympani muscles explored by tympanometry and pressure measurement in the external auditory canal

Contraction of the stapedius and tensor tympani muscles explored by tympanometry and pressure measurement in the external auditory canal

Muscles in and around the ear as the source of “physiological noise” during auditory selective attention: A review and novel synthesis

A Fast, “Zero Synapse” Acoustic Reflex: Middle Ear Muscles Physically Sense Eardrum Vibration

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