Development of cochlear active mechanisms in humans differs between gender
References (25)
- et al.
Evoked otoacoustic emissions in preterm infants
Int. J. Pediatr. Otorhinolaryngol.
(1993) A speculation about the parallel ear asymmetries and sex differences in hearing sensitivity and otoacoustic emissions
Hear. Res.
(1993)- et al.
Spontaneous otoacoustic emissions in preterm neonates: prevalence and gender effect
Hear. Res.
(1995) - et al.
First appearance and development of motile properties in outer hair cells isolated from guinea-pig cochlea
Hear. Res.
(1991) - et al.
The maturation of the central auditory conduction in preterm infants until three months post term. II. The auditory brainstem responses (ABRs)
Hear. Res.
(1987) - et al.
The development of the auditory ossicles, the otic capsule and the extracapsular tissues
Ann. Otol. Rhinol. Laryngol.
(1948) A fast motile response in guinea-pig outer hair cells: the cellular basis of the cochlear amplifier
J. Physiol.
(1987)- et al.
The development of human fetal hearing
Science
(1983) Click evoked otoacoustic emissions and the development of a clinical otoacoustic hearing test instrument
Cellular pattern and nerve supply of the human organ of Corti
Acta Otolaryngol. (Stockholm)
(1968)
Evoked mechanical responses of isolated cochlear hair cells
Science
Gender differences in cochlear response time: an explanation for gender amplitude differences in the unmasked auditory brain-stem response
J. Acoust. Soc. Am.
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The characteristic of otoacoustic emissions in full-term neonates according to ABO blood groups
2020, Brazilian Journal of OtorhinolaryngologyFrom melody to words: The role of sex hormones in early language development
2018, Hormones and BehaviorCitation Excerpt :Nevertheless, the robust prediction of an individual infant's melodic complexity using peripheral estradiol could indicate that hormones may have effects on the development and function of the auditory–vocal system in human infants that are as powerful as those in other vocal learners, particularly songbirds (e.g. Chao et al., 2015; Dittrich et al., 1999, 2014; Gahr and Metzdorf, 1999; Krentzel et al., 2018; Vahaba et al., 2017). Sex differences are already present in infancy in the human auditory system (McFadden, 1998; Morlet et al., 1996). Linking our findings on vocal production to auditory perception in the same sample at this age, we report on a study that demonstrated testosterone-related perception (hemispheric lateralization) at the group level (Friederici et al., 2008).
Sexual orientation and the auditory system
2011, Frontiers in NeuroendocrinologyCitation Excerpt :In humans, approximately 75% of females and 50% of males have at least one SOAE (e.g., [4]; reviewed in [50–52]). This sex difference in the number of SOAEs also exists in newborn humans [12,13,72,73,84]; that fact, plus the marked stability of SOAEs through life suggests that the SOAEs measured in young adults are a good representation of what was present at birth. SOAEs are not the basis for the “ringing in the ears” experienced after exposure to intense sounds or after ingestion of certain drugs; that tinnitus is a sign of a damaged cochlea, and SOAEs are a characteristic of normal cochleas.
Hearing conservation program for agricultural students: Short-term outcomes from a cluster-randomized trial with planned long-term follow-up
2009, Preventive MedicineCitation Excerpt :Individual results varied greatly, with some subjects showing nearly ideal hearing at both time points, others showing marked hearing loss at both times, and a few showing substantial declines over the 3-year study. Analyses of the thresholds verified the presence of underlying gender differences in hearing, as reported by others (Sato et al., 1991; McFadden, 1993; Morlet et al., 1996; Phillips et al., 2001; Nageris et al., 2007). As shown in Fig. 3, both the low- and high-frequency baseline averages tended to be higher in males, but asymmetrically.
Masculinization of the mammalian cochlea
2009, Hearing ResearchFrequency distribution of synchronized spontaneous otoacoustic emissions showing sex-dependent differences and asymmetry between ears in 2- to 4-day-old neonates
2009, International Journal of Pediatric OtorhinolaryngologyCitation Excerpt :SOAEs are presumably generated in the mammalian cochlea by the spontaneous electromotile response of OHCs [18]. The sex-dependent differences in the frequency distribution of SOAEs may relate to the amount of OHCs between the sexes [8,19]. Sato et al. [28] reported that the mean cochlear length was significantly longer in males (37.1 ± 1.6 mm) than in females (32.3 ± 1.8 mm), and it did not vary with postnatal age in either sex.