Development of pulse therapeutic apparatus with biphasic constant current and measured electrode impedance / 医疗卫生装备

In this paper, the structure, operational principle, clinical application of a novel pulse therapeutic apparatus are introduced. Controlled though a SCM, the apparatus can output biphasic constant current and special pulses for electrostimulation.With the electrode impedance measured automatically, the apparatus can be applied to the treatment and rehabilitation of several diseases of gynecology & Obstetrics.

Development of a novel low-frequency electronic pulse therapeutic apparatus / 医疗卫生装备

This paper introduces the structure and principle of a novel low-frequency electronic pulse therapeutic apparatus. Based on a novel single -chip microprocessor, the device can generate multiple special pulse signals and output bi -directional electronic pulse. At the same time, it can detect the impedance automatically and thus its security is improved.

The application of the extraction of 40Hz ASSR with parametric-model method to monitoring the depth of anesthesia / 医疗卫生装备

It is very significative to perform real-time and effective monitor of the depth of anesthesia during the clinical operation. With the introduction of muscle-relaxing agents in general anesthesia, the two major indices to judge the depth of anesthesia have been obscured, which makes it more difficult to judge the depth of anesthesia. In recent years it has been found that 40Hz Auditory Steady State Response (ASSR) has a very good characteristic to monitor the depth of anesthesia. This article makes use of parametric-model method to extract 40Hz ASSR, which has a higher speed than Moving Time Average (MTA) when tracing the transition process of the patient from being conscious to being unconscious.

The analysis and management of the diaphragmatic EMG signal / 医疗卫生装备

The method of triggering the respirator to perform airfeed by the management of the diaphragmatic electromyography (EMG) signal is introduced in this paper. By using LabVIEW, an analysis software of the diaphragmatic electromyographic (EMG) signals is developed to filter the diaphragmatic EMG signal. The characteristics of the filtered signal is analyzed to catch the inspiratory onset, and then a series of signals are sent out duly to trigger the respirator to perform airfeed, and thus the patient's respiration can be synchronized with the respirator.