脑电模式的变化表明,刺激正通过婴儿的中枢神经系统,并引发某种反应形式。
Changes in the electrical pattern of the brain indicate that the stimulus is getting through to the infant's central nervous system and eliciting some form of response.
介绍了一种脑电实时遥测与监护系统的研制。
This paper introduces a kind of EEG Telemetry and Tele-monitoring system.
数字脑电图仪含脑电地形图仪,是利用电极将人的大脑皮层的电活动提取并记录,从而对人的大脑及神经系统疾病进行诊断和治疗。
The digital EEG instrument is the use of that the electrical activity of cerebral cortex are extracted and recorded by electrodes, which diagnose and treat the human brain and nervous system.
脑电信号(EEG)是中枢神经系统产生的生物电活动,它包含了丰富的神经系统状态和变化的信息。
EEG are bioelectrical activity generated by the central nervous system, it contains a lot of the information about status and changes in the nervous system.
目的:探讨脑电地形图与CT在常见神经系统疾病中的对比应用。
Objective: To explore contrast application on BA and ct in common diseases of nervous system.
采用10 - 20国际标准电极系统,银—氯化银电极记录头皮脑电。
The EEGs were recorded from scalp electrodes according to the extended standard 10-20 international electrode placement system.
多通道高时间分辨率脑磁探测系统为反演脑内动态电活动参数提供了一种可能性。
Multichannel MEG detecting system with high temporal resolution provides a possibility to determine the dynamical parameters of electrical activities in a human brain.
具体完成工作如下:(1)脑电采集系统硬件实现。
Concrete experiments and work is shown as follows: (1) The hardware design for EEG acquisition system.
前言:目的:为了对脑电损伤进行深入系统的研究,建立一个以非热为主的高压电损伤组织模型。
Objective: establish a model to explore the influences of high-voltage electric field to rabbit brain. Methods: Apparatus producing high electricity was established.
方法:对33例发病24小时内的颈内动脉系统急性脑梗死患者行脑电地形图与灌注CT检查,并对两者的应用价值进行比较和分析。
Methods: The perfusion CT and BEAM of 33 patients with acute cerebral infarction during the initial 24 hours after the onset of disease were examined and their applied value was compared.
脑电采集系统作为一种检测脑部疾病的重要医疗仪器,在临床诊断中发挥着重要的作用。
The Electroencephalogram (EEG) acquisition system plays an important role in clinical diagnoses as an important medical device for examining and testing cerebral diseases.
主要内容:对原始脑电信息进行非线性分析,将微透析结果与脑电非线性分析结果相结合,建立脑电非线性实时监测分析系统。
Main content:To set up real time anestheisa monitoring system with combination of the relationship of the Micro-dialysis's results and the EEG non-linear's results from primitive EEG signal.
主要内容:对原始脑电信息进行非线性分析,将微透析结果与脑电非线性分析结果相结合,建立脑电非线性实时监测分析系统。
Main content:To set up real time anestheisa monitoring system with combination of the relationship of the Micro-dialysis's results and the EEG non-linear's results from primitive EEG signal.
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