The Effects of Reproductive Hormones on Speech-evoked Auditory Brainstem Response in Young Adults
10.3969/j.issn.1006-7299.2017.04.004
- VernacularTitle:生殖激素对正常青年人言语听性脑干反应特性的影响
- Author:
Dan WANG
;
Jinfeng LIU
;
Xiaoting LI
;
Xin FU
;
Jinsheng DAI
;
Jingyi ZHAO
;
Ningyu WANG
- Keywords:
Speech;
Young adult;
Auditory brainstem responses;
Reproductive hormones;
Sexual difference
- From:
Journal of Audiology and Speech Pathology
2017;25(4):347-352
- CountryChina
- Language:Chinese
-
Abstract:
Objective To investigate the correlation between reproductive hormone concentration and the amplitude and latency of speech-evoked auditory brainstem response (speech-ABR) in young adults, and to explore the effects of reproductive hormone on the speech processing ability of young people.Methods Speech-ABR of thirty five normal hearing young adults, including seventeen females (27.29±1.83 years old) and eighteen males (28.17±2.50 years old) were recorded.The speech syllable /da/ was transmitted as a stimulus sound to the right ears through insert earphones in speech-ABR test.All participants had air conduction hearing thresholds of 20 dB HL or better across the standard audiometric frequencies (250~8 000 Hz) in both ears, and click-ABRs were also within normal limits.At the same time, the concentrations of estradiol and testosterone in the serum were examined.Results ① Females had a shorter latency than males in transient responses (waves V, A and O) and sustained responses (waves D, E and F) of speech-ABR (P<0.05, respectively).The amplitude of transient response (waves V and A) and sustained response (waves D, E and F) in females was also significantly larger than that in males (P<0.05, respectively), except for amplitude of peak O (P>0.05).The V/A slope in females was significantly steeper than that in males (P<0.05).② Estradiol levels in females (118.77±102.66 pg/ml) were significantly higher than that in males (52.91±14.77 pg/ml) (P<0.05), and the total testosterone concentration in females (457.65±140.82 pg/ml) was significantly lower than that in males (3 677.37±1 155.80 pg/ml) (P<0.05).③ A correlation analysis between speech-ABR and estradiol or total testosterone showed that all peak latencies of speech-ABR in transient responses (waves V, A and O) and sustained responses (waves D, E and F) were negatively correlated with the estradiol concentration (P<0.05 respectively), in which the correlation coefficient was between 0.2~0.4.All peak latencies of speech-ABR were positively correlated with the total testosterone concentration (P<0.05 respectively), in which the correlation coefficient was between 0.4~0.7.④ The amplitudes of speech-ABR increased with estradiol concentration growing, the wave V and estradiol concentrations were positively correlated (P<0.05).The estradiol concentrations showed a significant negative correlation with wave A, D, E, F and O wave (P<0.05 respectively), with a correlation coefficient between 0.2~0.7.On the contrary, the amplitudes of speech-ABR decreased with the increasing of total testosterone concentration, and the wave V, wave A, V/A slope and total testosterone concentration were moderately correlated (P<0.05),with a correlation coefficient between 0.4-0.6.The correlation between the amplitudes of D wave and total testosterone concentration was not statistically significant (P>0.05), and the correlation between wave E and wave F and total testosterone concentration was weakly correlated (P<0.05).In addition, the amplitudes of the wave O were also independent with testosterone levels (r=0.133, P>0.05).Conclusion There are correlations between the level of reproductive hormone and the amplitude and latency of speech-ABR.It is one of the reasons for the gender difference in the brainstem speech coding ability of normal young adult.
