1 Saitoh Y,Sakoda T,Hazama M,et al.Transient evoked oto-acoustic emissions in newborn infants:Effects of ear asymme-try,gender,and age[J].J Otolaryngol,2006,35:133.

2亓贝尔,黄丽辉,蔡正华,等.TEOAE技术用于新生儿听力筛查的影响因素分析[J].中国耳鼻咽喉头颈外科,2006,13:777.

3黄丽辉,韩德民,陈瑜,等.性别、耳别和季节对新生儿听力筛查通过率的影响[J].听力学及言语疾病杂志,2009,17:12.

4 Prieve BA,Hancur-Bucci CA,Preston JL.Changes in tran-sient-evoked otoacoustic emissions in the first month of life[J].Ear Hear,2009,30:330.

5 Berninger E.Characteristics of normal newborn transient-e-voked otoacoustic emissions ear asymmetries and sex effects[J].Int J Audiol,2007,46:661.

6 Aidan D,Lestang P,Avan P,et al.Characteristics of transi-ent-evoked otoacoustic emissions(TEOAEs)in neonates[J].Acta Otolaryngol,1997,117:25.

7刘世新,邬沃乔,刘一心,等.新生儿听力筛查初筛时间探讨[J].听力学及言语疾病杂志,2009,17:7.

8李金兰,刘锦峰,石宝玉,等.新生儿瞬态诱发性耳声发射的性别和耳间差异[J].中华护理杂志,2009,44:847.

9 Brienesse P,Anteunis L,Wit H,et al.Otoacoustic emissionsin preterm infants Indications for cochlear development[J].Audiology,1996,35:296.

10 Thornton AR,Kimm L,Kennedy CR.Methodological fac-tors involved in neonatal screening using evoked otoacousticemissions and automated auditory brainstem response testing[J].Hear Res,2003,182:65.

11 Welch D,Greville KA,Thorne PR,et al.Influence of acqui-sition parameters on the measurement of click evoked otoa-coustic emissions in neonates in a hospital environment[J].Audiology,1996,35:143.

12 Norton SJ,Gorga MP,Widen JE,et al.Identification ofneonatal hearing impairment:transient evoked otoacoustic e-missions during the perinatal period[J].Ear Hear,2000,21:425.

13戚以胜,聂迎玖,蔡正华,等.足月新生儿瞬态诱发耳声发射(TEOAEs)的反应特性[J].生物物理学报,2000,16:66.

14 Doyle KJ,Rodgers P,Fujikawa S,et al.External and mid-dle ear effects on infant hearing screening test results[J].Otolaryngol Head Neck Surg,2000,122:477.

15 Olsha M,Newark M,Bresloff I,et al.Otological evaluationof newborns who failed otoacoustic emission screening[J].JBasic Clin Physiol Pharmacol,1999,12:191.

16 Keefe DH,Folson RC,Gorga MP,et al.Identification ofneonatal hearing impairment:Ear canal measurements of a-coustic admittance and reflectance in neonates[J].Ear Hear,2000,21:443.

17 Prieve BA,Calandruccio L,Fitzgerald T,et al.Changes intransient-evoked otoacoustic emission levels with negativetympanometric peak pressure in infants and toddlers[J].EarHear,2008,29:533.

18 Koike KJ,Wetmore SJ.Interactive effects of the middle earpathology and the associated hearing loss on transient-e-voked otoacoustic emission measures[J].Otolaryngol HeadNeck Surg,1999,121:238.

19 Groh D,Pelanova J,Jilek M,et al.Changes in otoacousticemissions and high-frequency hearing thresholds in childrenand adolescents[J].Hear Res,2006,212:90.

20 Liu JF,Shi BY,Wang NY,et al.Characterization of sponta-neous otoacoustic emissions in 2~4 day old neonates with re-spect to gender and ear[J].Neural Regeneration Research,2009,4:67.

21 Moulin A,Kemp DT.Multicomponent acoustic distortionproduct otoacoustic emission phase in humans.I.Generalcharacteristics[J].J Acoust Soc Am,1996,100:1 617.

22 Al-Mana D,Ceranic B,Djahanbakhch O,et al.Hormonesand the auditory system:A review of physiology and patho-physiology[J].Neurosci,2008,153:881.

23 McFadden D.Masculinizing effects on otoacoustic emissionsand auditory evoked potentials in women using oral contra-ceptives[J].Hear Res,2000,142:23.

24 Moulin A,Collet L,Veuillet E,et al.Interrelations betweentransiently evoked otoacoustic emissions,spontaneous otoa-coustic emissions and acoustic distortion products in normallyhearing subjects[J].Hear Res,1993,65:216.

25 Ferguson MA,Smith PA,Davis AC,et al.Transient-e-voked otoacoustic emissions in a representative populationsample aged 18 to 25 years[J].Audiology,2000,39:125.

26 Ismail H,Thornton ARD.The interaction between ear andsex differences and stimulus rate[J].Hear Res,2003,179:97.

27 Stieger C,Djeric D,Kompis M,et al.Anatomical study ofthe human middle ear for the design of implantable hearingaids[J].Auris Nasus Larynx,2006,33:375.

28 Morlet T,Perrin E,Durrant JD,et al.Development of co-chlear active mechanisms in humans differs between gender[J].Neurosci Lett,1996,220:49.

29 Burns EM,Arehart KH,Campbell SL.Prevalence of spon-taneous otoacoustic emissions in neonates[J].J Acoust SocAm,1992,91:1 571.

30 Sato H,Sando I,Takahashi H.Sexual dimorphism and thedevelopment of the human cochlea:Computer 3-D measure-ment[J].Acta Oto Laryngol,1991,111:1 037.

31 Don M,Ponton CW,Eggermont JJ,et al.Gender differ-ences in cochlear response time:An explanation for genderamplitude differences in the unmasked auditory brain-stemresponse[J].J Acoust Soc Am,1993,94:2 135.

32 Nadol JB.Quantification of human spiral ganglion cells by se-rial section reconstruction and segmental density estimates[J].Am J Otolaryngol,1988,9:47.

33 Ulehlova L,Voldrich L,Janisch R.Correlative study of sen-sory cell density and cochlear length in Humans[J].HearRes,1987,28:149.

34 Bohne BA,KenworthyA,Carr CD.Density of myelinated nervefibers in the chinchilla cochlea[J].J Acoust Soc Am,1982,72:102.

35 Liu JF,Wang NY,Li JL,et al.Frequency distribution ofsynchronized spontaneous otoacoustic emissions showing sex-dependent differences and asymmetry between ears in 2-to 4-day-old neonates[J].Int J Pediatr Otorhinolaryngol,2009,73:731.

36 Sininger YS,Cone-Wesson B.Asymmetric cochlear pro-cessing mimics hemispheric specialization[J].Science,2004,305:1 581.

37 PavlovcˇinováG,JakubíkováJ,Trnovec T,et al.A norma-tive study of otoacoustic emissions,ear asymmetry,and gen-der effect in healthy schoolchildren in Slovakia[J].Int J Pedi-atr Otorhinolaryngol,2010,74:173.

38 Khalfa S,Collet L.Functional asymmetry of medial olivoco-chlear system in humans.Towards a peripheral auditory lat-eralization[J].Neuroreport,1996,7:993.

39 Khalfa S,Morlet T,Micheyl C,et al.Evidence of peripheralhearing asymmetry in humans:clinical implications[J].ActaOtolaryngol,1997,117:192.

40 Paludetti G,Ottaviani F,Fetoni AR,et al.Transient evokedotoacoustic emissions(TEOAEs)in new-borns:normativedata[J].Int J Pediatr Otorhinolaryngol,1999,47:235.

41 McFadden D.A speculation about the parallel ear asymme-tries and sex differences in hearing sensitivity and otoacousticemissions[J].Hear Res,1993,68:143.

42 Choi CH,Lee JM,Koo BB,et al.Sex differences in the tem-poral lobe white matter and the corpus callosum:A diffusiontensor tractography study[J].Neuroreport,2010,21:73.

43 Chi JG,Dooling EC,Gilles FH.Left-right asymmetries ofthe temporal speech areas of the human fetus[J].Arch Neu-rol,1977,34:346.

44 Thornton AR,Marotta N,Kennedy CR.The order of tes-ting effect in otoacoustic emissions and its consequences forsex and ear differences in neonates[J].Hear Res,2003,184:123.

45 Khalfa S,Micheyl C,Veuillet E,et al.Peripheral auditorylateralization assessment using TEOAEs[J].Hear Res,1998,121:29.