1) Otoacoustic emissions
耳声发射.自发性
2) otoacoustic emissions
耳声发射
1.
Otoacoustic emissions for hearing screening among newborns undergoing intensive care;
耳声发射在重症监护新生儿听力筛查中的应用
2.
Otoacoustic emissions(OAEs)in patients with obstructive sleep apnea-hypopnea syndrome;
阻塞性睡眠呼吸暂停低通气综合征耳声发射结果分析
3.
Hearing screening using transient evoked otoacoustic emissions in the neonatal intensive care unit(NICU);
用瞬态诱发耳声发射对新生儿重症监护病儿进行听力筛查
3) Otoacoustic emission
耳声发射
1.
Clinical significance of hearing screening with transient-evoked otoacoustic emissions in high-risk neonates;
瞬态诱发耳声发射对高危新生儿听力筛查的临床意义
2.
ABR hearing assessment of the infant not passing the otoacoustic emissions;
耳声发射未通过的婴幼儿ABR听力评估
3.
METHOD Hearing screening for 3 917 neonates in Huangpu District by distrotion product otoacoustic emission(DPOAE),the neonatal who refer in second screening,adopting auditory brainstem response(ABR) and audio impedance to diagnose neonates before 3 months born.
方法应用耳声发射技术(DPOAE)对黄埔区3917名新生儿进行听力筛查,对未通过复筛的新生儿于生后3个月前采用脑干听觉诱发电位技术及声阻抗进行诊断。
4) DPOAE
耳声发射
1.
Curative Effect of DPOAE in Sudden Deafness;
耳声发射对突发性耳聋的疗效评价
2.
Distont production of acoustic emission (DPOAE) was performed and immunohistochemica.
免疫6周后,观察两周,于首次给药前一天和末次给药后一天行畸变产物耳声发射检测(DPOAE);处死动物,取耳蜗行基底膜铺片光学检查和切片免疫组织化学检测。
5) OAE
耳声发射
1.
A collective data analysis on the OAE screening in 48041 neonates;
应用耳声发射技术对48041名新生儿进行听力筛查的汇总分析
2.
Diagnostic Value of DPOAE During Glycerol Test in Early Endolymphatic Hydrops;
畸变产物耳声发射甘油试验在内淋巴积水早期诊断中的价值
3.
Probe into the Diagnostic Value of OAE during the Glycerol Test in the Early Endolymphatic Hydrops;
耳声发射甘油试验在内淋巴积水早期诊断中的价值探讨
6) aural acoustic impedance
耳声阻抗
1.
As an objective diagnostic method, aural acoustic impedance measuring device holds a very important position in diagnosing ear diseases and hearing obstacles.
作为一种客观的诊断方法 ,耳声阻抗测量仪在临床耳疾和听力障碍诊断方面具有重要地位。
参考词条
中耳声导抗测试
瞬态耳声发射
诱发性耳声发射
耳声发射技术
顺态耳声发射
诱发耳声发射
中耳声阻抗匹配
自发耳声发射
畸变产物耳声发射技术
瞬态诱发性耳声发射
瞬态诱发耳声发射
畸变产物耳声发射
耳声发射畸变产物
生物素亲合素系统(BAS)
(语音)提示和收集(信息)
补充资料:自发发射
分子式:
CAS号:
性质:即使不存在外电磁场的微扰作用,仍能发生的发射模式。在n态与m态之间的跃迁,由自发发射的爱因斯坦系数Anm所决定。
CAS号:
性质:即使不存在外电磁场的微扰作用,仍能发生的发射模式。在n态与m态之间的跃迁,由自发发射的爱因斯坦系数Anm所决定。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。