1) auditory evoked potentials(AEP)
听觉诱发电位AEP
2) Auditory evoked potential
听觉诱发电位
1.
Influence of different ways of general anesthesia induction on hemodynamics and auditory evoked potential index in patients with coronary heart disease during endotracheal intubation;
不同全麻诱导方式对冠心病患者气管插管过程中的血流动力学及听觉诱发电位指数的影响
2.
The clinical applications of visual and auditory evoked potentials in soldier’s patients with post-traumatic stress disorder and adjustment disorder;
军人创伤后应激障碍与适应障碍的视觉和听觉诱发电位研究
3.
Comparative study of auditory evoked potential vs bispectral index for monitoring the depth of anesthesia during induction and recovery periods;
听觉诱发电位指数和脑电指数用于监测全麻深度的比较性研究
3) Auditory evoked potentials
听觉诱发电位
1.
Auditory evoked potentials and their application value in forensic medicine;
听觉诱发电位及其法医学应用价值
2.
An analysis of brain stem auditory evoked potentials in diabetes patients;
糖尿病脑干听觉诱发电位分析
3.
Objective Studied auditory evoked potentials intex (AAI) within the analgesia fibre endoscopic diagnose and treatment application value.
目的研究听觉诱发电位指数在无痛纤维内镜诊疗术中的应用价值。
4) AEP
听觉诱发电位
1.
The study on the VEP, AEP and event related potential p300 in schizophrenia with different gender;
不同性别精神分裂症患者视觉、听觉诱发电位事件相关电位P300相关性研究
2.
Effect of preemptive analgesia on postoperative patient’s auditory evoked potential (AEP) after complete hysterectomy under general anesthesia;
预先镇痛对全宫术后全麻恢复期病人听觉诱发电位(AEP)的影响
5) Auditory evoked potential index
听觉诱发电位
1.
Auditory evoked potential index for monitoring the depth of general anesthesia for the elderly with laryngeal mask anesthesia;
听觉诱发电位指数用于老年患者喉罩全麻麻醉深度监测的研究
6) brainstem auditory evoked potential
听觉诱发电位
1.
Objectives:To explore the diagnostic value of visual evoked potential (VEP) , brainstem auditory evoked potential (BAEP) and samtosensory evoked potential (SEP) in patients with multiple sclerosis (MS) .
目的:探讨视觉诱发电位(VEP)、听觉诱发电位(BAEP)、体感诱发电位(SEP)对多发性硬化(MS)的诊断价值。
2.
With the help of this feature, we presented a newmethod to track the variation of brainstem auditory evoked potential (BAEP) trial to trial using time-sequenced adaptive filtering (TSAF) technique.
本文针对诱发电位是具有重复出现特性的非平稳信号这一特点,利用时间序列自适应滤波技术对听觉诱发电位进行动态跟踪,时间序列自适应滤波技术将非平稳的听觉诱发电位进行分段处理,每段用一个专门的LMS自适应信号增强滤波器来实现,实验表明,利用这一新方法不但能够得到优于常规平均技术的结果,更重要的是它能不断地跟踪诱发电位的变化轨迹,提供变化的细节,为临床诊断和神经生理学的研究提供有力的手段。
3.
The curative effect and brainstem auditory evoked potential were observed before and after treatment.
观察睡眠功能改善及治疗前后听觉诱发电位变化情况。
补充资料:AEP
N-氨乙基哌嗪简称AEP,分子量129.21。无色或谈黄色透明液体,相对密度(25℃/25℃) 0.983~0.989,凝固点-17.6℃.沸点210~230 ℃,粘度(25℃) 30mPas.可燃。低毒,LD50 2140mg/kg。
用作环氧树脂的固化剂,参考用量20~23phr,固化条件RT/3h十200℃/1h。固化物热变形温度110-120℃。
用作环氧树脂的固化剂,参考用量20~23phr,固化条件RT/3h十200℃/1h。固化物热变形温度110-120℃。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条