Ultrashort pulse defibrillator

An ultra-short pulse, defibrillator technology, applied in the field of defibrillators, can solve the problems of irreversible electroporation, irreversible damage, etc., and achieve the effects of reducing irreversible electroporation damage, reducing damage, and low voltage

Pending Publication Date: 2021-11-30
SHANGHAI UNIV OF MEDICINE & HEALTH SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The present invention aims at providing an ultra-short pulse defibrillator for the existing defibrillator because the pulse width of the defibrillation waveform is too wide and the number of times is too large, which is prone to irreversible electroporation and causes irreversible damage.

Method used

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  • Ultrashort pulse defibrillator

Examples

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Effect test

Embodiment 1

[0073] Embodiment one, with reference to figure 2 , this embodiment provides an ultrashort pulse defibrillator, including a DC power supply, an energy storage capacitor 200 , a discharge switch circuit, a step-up transformer T1 and a pair of electrodes 400 .

[0074] The DC power supply provides electric energy for the energy storage capacitor. Before defibrillation, energy is stored in the energy storage capacitor through the DC power supply, and the voltage in the energy storage capacitor is determined according to the voltage amplitude of the output pulse. Considering the withstand voltage of each switch tube in the discharge switch circuit, the voltage of the energy storage capacitor should not be too high. Considering the influence of the transformation ratio of the step-up transformer T1, the voltage of the energy storage capacitor should not be too high.

[0075] The energy storage capacitor includes an electrolytic capacitor C1 and a film capacitor C2. The positive p...

Embodiment 2

[0079] Embodiment two, refer to image 3 , this embodiment provides an ultrashort pulse defibrillator, including a DC power supply, an energy storage capacitor 200 , a discharge switch circuit 300 , a step-up transformer T1 and a pair of electrodes 400 .

[0080] The DC power supply provides electric energy for the energy storage capacitor 200. Before defibrillation, energy is stored in the energy storage capacitor 200 through the DC power supply, and the voltage in the energy storage capacitor 200 is determined according to the voltage amplitude of the output pulse. Considering the withstand voltage of each switch tube in the discharge switch circuit, the voltage of the energy storage capacitor 200 should not be too high. Considering the effect of the transformation ratio of the step-up transformer T1, the voltage of the energy storage capacitor 200 should not be too high.

[0081] The energy storage capacitor 200 includes an electrolytic capacitor C1 and a film capacitor C2...

Embodiment 3

[0089] Embodiment three, refer to Figure 4 , this embodiment provides an ultrashort pulse defibrillator, including a DC power supply, an energy storage capacitor 200 , a discharge switch circuit 300 , a step-up transformer T1 and a pair of electrodes 400 .

[0090] The DC power supply provides electric energy for the energy storage capacitor 200. Before defibrillation, energy is stored in the energy storage capacitor 200 through the DC power supply, and the voltage in the energy storage capacitor 200 is determined according to the voltage amplitude of the output pulse. Considering the withstand voltage of each switch tube in the discharge switch circuit, the voltage of the energy storage capacitor 200 should not be too high. Considering the effect of the transformation ratio of the step-up transformer T1, the voltage of the energy storage capacitor 200 should not be too high.

[0091] The energy storage capacitor 200 includes an electrolytic capacitor C1 and a film capacitor...

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Abstract

The invention belongs to the technical field of medical instruments and particularly relates to a defibrillator. An ultrashort pulse defibrillator comprises a direct current power supply, an energy storage capacitor and a pair of electrodes which are connected in sequence, and further comprises a discharge switch circuit, wherein the discharge switch circuit is arranged in front of the energy storage capacitor and the pair of electrodes and used for controlling the discharge time of the energy storage capacitor; and a boosting transformer, wherein the boosting transformer is arranged between the discharge switch circuit and the pair of electrodes, and the boosting transformer boosts a voltage of the energy storage capacitor to a preset amplitude. According to the defibrillator, a nanosecond-to-microsecond ultrashort pulse electric field is used for proceeding defibrillation, and energy deposited on ventricular cells is less in pulse action time, so that the destructive effect of defibrillation pulses on myocardial cells is reduced, the irreversible electroporation damage to the myocardial cells is reduced, and the defibrillation rate is also increased.

Description

technical field [0001] The invention belongs to the technical field of medical devices, and in particular relates to a defibrillator. Background technique [0002] A defibrillator is a device that uses electrical impulses to terminate ventricular fibrillation and restore sinus rhythm. As an important medical electronic device for converting malignant arrhythmias such as ventricular fibrillation and ventricular tachycardia, cardiac defibrillators have been widely used clinically. However, the current success rate of clinical rescue of such patients is still unsatisfactory. Since its invention in 1962, improving the success rate of defibrillation and reducing the side effects of defibrillation have been the goals that people have been pursuing. [0003] Traditional defibrillators use energy to defibrillate based on the principle of electrical stimulation of cardiomyocytes. Side effects of such defibrillators may include increased morbidity and mortality, anxiety, pain, and ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61N1/39
CPCA61N1/39A61N1/3906A61N1/3931A61N1/3912
Inventor 单纯玉李萍唐玉宁涂梦婷刘娟戴冰钰王羿霏鲁翀聪
Owner SHANGHAI UNIV OF MEDICINE & HEALTH SCI
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