Recently, Kim et al. [2] reported that ovarian removal itself did not increase susceptibility to noise-induced hearing loss in an animal model, although administration of estrogen could improve hearing recovery and reduce hair cell loss in the cochlea after noise exposure. On the basis of those findings, it is important to consider whether there are hearing-related differences between men and women. Liu et al. reported that men experience more frequent deafness or serious hearing difficulty than women, on the basis of a large meta-analysis [3]. Other reports have indicated that men are more sensitive than women to noise-induced hearing loss [4]. The mechanisms of hearing loss are complex and diverse, although they most commonly involve reactive oxygen species formation inside the cochlea and subsequent tissue damage (i.e., loss of auditory hair cells and nerve fibers). For example, a study demonstrated differences between male and female animals in the regulation of cochlear blood flow, which is important in the context of hearing due to the effects of ischemia and oxidative stress [5].

In particular, the hormonal profile differs considerably between the sexes, and this influences organ function throughout the body. Several studies have investigated the effects of estrogen on hearing, and one found that hearing is influenced by the menstrual cycle through changes in serum levels of estrogen and progesterone [6]. Furthermore, attempts have been made to maintain hearing in post-menopausal women by administering estrogen hormone replacement therapy (HRT), but no studies have shown a protective effect against age-related hearing loss.

However, a report found that women receiving HRT had a higher risk of self-reported hearing loss [7]. The actions of estrogen are mediated through its interactions with two estrogen receptors (ERα and ERβ). In the mouse inner ear, the reported expression patterns of ERα and ERβ are broad and vary across cochlear areas (ERα: inner hair cells, outer hair cells, types I and II spiral ganglion neurons, Reissner’s membrane, stria vascularis, and spiral ligament; ERβ: inner hair cells but not outer hair cells, Reissner’s membrane, and stria vascularis, with lower expression in types I and II spiral ganglion neurons) [8]. In addition to the two canonical ERs (ERα and ERβ), a family of estrogen-related receptors (ESRR or ERR: ERRα, ERRβ, and ERRγ) may also contribute to hearing physiology. Therefore, further research into the mechanism by which estrogen affects hearing will be clinically meaningful, and a follow-up study on HRT is highly anticipated. Women are more likely than men to receive estrogen HRT. Thus, it will be important to determine whether women also have a higher likelihood of hearing improvement.