CN204073105U - Implanted self energizing cardioverter-defibrillator - Google Patents

Abstract

This utility model provides a kind of implanted self energizing cardioverter-defibrillator, comprising: rhythm of the heart monitoring portion, pulse generator, stimulating electrode and Power Generation Section.Power Generation Section comprises generating main body, output unit, energy storage unit, fixed cell and encapsulated layer.Wherein, generating main body is multi-layer film structure, comprises the piezoelectric material layer being positioned at described generating main center, and is positioned at the electrode layer of piezoelectric material layer both sides.Output unit is connected with described electrode layer, exports to described energy storage unit for electric current generating main body produced.Energy storage unit is used for storage of electrical energy and powers for rhythm of the heart monitoring portion and pulse generator.Fixed cell is positioned at the edge of generating main body, for generating main body is fixed on visceral pericardium.Encapsulated layer is covered in the surface of generating main body, described output unit, described energy storage unit and described fixed cell.Self energizing cardiac defibrillator of the present utility model, without the need to changing battery, can use all the life.

Description

Implanted self energizing cardioverter-defibrillator

Technical field

This utility model relates to a kind of Implantable cardioverter-defibrillator, belongs to medical instruments field.

Background technology

Along with the mankind deepen continuously to the understanding of various disease, increasing disease can adopt implantable electronic device to carry out diagnosing or treating.

For serious patients with ventricular arrhythmia, treat by Implantable cardioverter-defibrillator at present.But, cardioverter-defibrillator due to existing vivo implantation type uses battery as power supply, once the energy content of battery is exhausted, just need to change battery by operating mode, this both can cause physiological misery and psychological fear and anxiety to patient, also can increase the financial burden of patient and family thereof.

Utility model content

For solving the problem, this utility model provides a kind of implanted self energizing cardioverter-defibrillator, it is characterized in that, comprising: for measuring chip, pulse generator, the stimulating electrode of heart rate and being the Power Generation Section that described monitoring portion and described pulse generator are powered.Power Generation Section comprises generating main body, output unit, energy storage unit, fixed cell and encapsulated layer.Wherein, generating main body is multi-layer film structure, comprises the piezoelectric material layer being positioned at described generating main center, and is positioned at the electrode layer of piezoelectric material layer both sides.Generating main body is by being attached at heart surface to gather cardiac energy for generation of electric energy.Output unit is connected with described electrode layer, exports to described energy storage unit for electric current generating main body produced.Energy storage unit is used for storage of electrical energy and powers for rhythm of the heart monitoring portion and pulse generator.Fixed cell is positioned at the edge of generating main body, for generating main body is fixed on visceral pericardium.Encapsulated layer is covered in the surface of generating main body, described output unit, described energy storage unit and described fixed cell.

In addition, in implanted self energizing cardioverter-defibrillator of the present utility model, can also have such feature: wherein, the shape of generating main body is tetragon, and output unit is positioned at the centre on two narrow limits of tetragon.

In addition, in implanted self energizing cardioverter-defibrillator of the present utility model, can also have such feature: wherein, the shape of generating main body is triangle, and output unit is positioned at leg-of-mutton three summits.

In addition, in implanted self energizing cardioverter-defibrillator of the present utility model, can also have such feature: wherein, the shape of generating main body is Long Circle.

In addition, in implanted self energizing cardioverter-defibrillator of the present utility model, can also have such feature: wherein, piezoelectric material layer contains nanoscale piezoelectric, and nanoscale piezoelectric is any one in piezoquartz, piezoelectric ceramics and organic piezopolymer.

In addition, in implanted self energizing cardioverter-defibrillator of the present utility model, can also have such feature: wherein, piezoquartz is at least one deck zinc oxide nano-wire array.

In addition, in implanted self energizing cardioverter-defibrillator of the present utility model, can also have such feature: wherein, piezoquartz, piezoelectric ceramics, organic piezopolymer can be the single or multiple lift structure of nanoscale piezoelectric.

In addition, in implanted self energizing cardioverter-defibrillator of the present utility model, can also have such feature: wherein, output unit has output electrode and current rectifying and wave filtering circuit.

In addition, in implanted self energizing cardioverter-defibrillator of the present utility model, can also have such feature: wherein, encapsulated layer is using the flexible macromolecule insulant of good biocompatibility as encapsulating material.

The effect of utility model and effect

According to implanted self energizing cardioverter-defibrillator of the present utility model, because generating main body is directly attached at heart surface, therefore, it is possible to effectively the contraction of heart and diastole are made nanoscale piezoelectric generation deformation, thus be converted into electric energy.As long as therefore heartbeat, this utility model can utilize the bioenergy of patient self and provide electric energy, eliminates the necessity using battery as power supply, solves after the energy content of battery is exhausted and needs operation to change the problem of battery.

In addition, because generating main body of the present utility model adopts point fixing mode that electricity generation system is fixed on visceral pericardium, effectively can gather the energy that heart movement produces on the one hand, also can not produce significantly impact to the contraction of heart and diastole campaign on the other hand.

Because this utility model adopts nanoscale piezoelectric as generating main body, not only effectively the bioenergy in body can be converted into electric energy, and volume is small, is more suitable for et al. Ke.

In addition, because this utility model adopts the flexible macromolecule insulant encapsulation of good biocompatibility, therefore generating main body and internal milieu can be isolated, also the pressure that the heart-shaped sell of one's property is raw effectively can be conducted to piezoelectric.

Further, because generating main body of the present utility model is positioned at heart exterior, directly do not contact with blood, thus there is not the risk of thrombosis and apoplexy (myocardial infarction or cerebral infarction).

Accompanying drawing explanation

Fig. 1 is the generating main body of the implanted self energizing cardioverter-defibrillator of this utility model embodiment one is the schematic diagram of tetragon,

Fig. 2 is the partial section of the generating main body of the implanted self energizing cardioverter-defibrillator of this utility model embodiment one;

Fig. 3 is the generating main body of the implanted self energizing cardioverter-defibrillator of this utility model embodiment two is leg-of-mutton schematic diagram;

Fig. 4 is the generating main body of this utility model variation is oblong schematic diagram; And

Fig. 5 is the circuit diagram of this utility model embodiment.

Detailed description of the invention

The detailed description of the invention of defibrillator of the present utility model is described below in conjunction with accompanying drawing,

< embodiment one >

Fig. 1 is the generating main body of implanted self energizing cardioverter-defibrillator in embodiment 1 is the schematic diagram of tetragon, as shown in Figure 1, implanted self energizing cardioverter-defibrillator 20, has Power Generation Section 200, pulse generator 17 and stimulating electrode 18, and rhythm of the heart monitoring portion does not show in the drawings.Wherein, Power Generation Section 200 comprises generating main body 21, output unit, energy storage unit 16 and fixed cell 22.Generating main body 21 is rectangle, two narrow limits of rectangle respectively has a fixed cell 22, for generating main body is fixed on visceral pericardium with long axis direction along systaltic direction.When implanting generating main body, heart is manifested by operating mode, generating main body arranged along systaltic direction and be sewn on visceral pericardium by fixed part, generating main body and visceral pericardium are fitted, and now generating electricity main body can along with the generation deformation of beating of heart.

Fixed cell 22 is made up of encapsulated layer, and the inside of fixed cell 22 does not have the electrification structure such as electrode or piezoelectric, therefore can not destroy the electrification structure of generating main body 21 when using suture to fix.Generating main body remainder except fixing with fixed cell is not fixed, and is beneficial in systaltic process, make generating main body better deformation can occur.Output unit comprises output electrode 14 and current rectifying and wave filtering circuit 15.Output electrode 14 exports to energy storage unit 16 for electric energy generating main body 21 produced, before energy storage unit 16, also there is current rectifying and wave filtering circuit 15, electric current for exporting output electrode 14 carries out rectifying and wave-filtering, thus makes the electric current of output more stable.Pulse generator 17 and monitoring portion (not shown) provide energy to carry out work by energy storage unit 16.When monitoring portion detects ventricular arrhythmia, pulse generator 17 can send electricity irritation by stimulating electrode 18 Cardiomyocytes, makes the rhythm of the heart recover normal.Fig. 2 is the sectional view of the generating main part of the implanted self energizing cardioverter-defibrillator of this utility model embodiment, as shown in Figure 2, generating main body 21 is multi-layer film structure, its central core is piezoelectric material layer 31, piezoelectric material layer 31 is made up of ZnO nanowire array, the both sides of piezoelectric material layer 31 are respectively electrode layer 32 and electrode layer 33, and electrode layer 32 and electrode layer 33 are connected with output electrode 14 (not shown) respectively.Encapsulated layer 34 is positioned at the outside of electrode layer 32 and electrode layer 33, and encapsulated layer 34 has good insulating properties and biocompatibility.

Fig. 5 is the circuit diagram of this utility model embodiment, as shown in Figure 5, generating main body 21 is connected with current rectifying and wave filtering circuit 15, the electric energy that generating main body 21 produces charges to energy storage unit 16 after current rectifying and wave filtering circuit 15, and energy storage unit 16 is for powering for the rhythm of the heart monitoring portion in electrical appliance and the present embodiment and pulse generator.

< embodiment two >

Fig. 3 is the leg-of-mutton implanted self energizing cardioverter-defibrillator schematic diagram of this utility model embodiment, as shown in Figure 3, the generating main body 12 of implanted self energizing cardioverter-defibrillator 11 of the present utility model is triangle, leg-of-mutton each vertex position respectively has a fixed cell 13, output electrode 14 is connected with electrode layer (not showing in Fig. 3), current rectifying and wave filtering circuit 15 is connected with output electrode 14, and energy storage unit 16 is connected to current rectifying and wave filtering circuit 15 afterwards for storing the electric energy that Power Generation Section produces.

As shown in Figure 3, the shape of generating main body 12 is triangle, when being installed on visceral pericardium, utilizes the output unit 13 be positioned on an Atria summit generating main body 12 to be fixed on the visceral pericardium of myocardial wall.And each limit leg-of-mutton of the main body 12 that generates electricity is not fixed, both can not limit contraction and the diastole of heart, also contribute to piezoelectric material layer along with the motion generation deformation of heart thus produce electric energy.

Generating main body 12 is made into the energy that leg-of-mutton advantage is more to gather heartbeat, this is because not only have horizontal contraction and diastole in the process of heartbeat, also longitudinal contraction and diastole is had, when adopting leg-of-mutton shape, a leg-of-mutton summit is set to the direction towards the apex of the heart, and two other summit is set to parallel with the direction of heart cross-direction shrinkage, no matter being heart cross-direction shrinkage is like this longitudinal contraction, generating main body 12 all can be driven to be out of shape.Therefore the leg-of-mutton shape energy that can more utilize heartbeat to produce than the shape of tetragon.

After current rectifying and wave filtering circuit 15 is connected to output electrode 14, the electric current that generating main body 12 produces is stored in energy storage unit 16 after rectifying and wave-filtering, and energy storage unit 16 is miniature rechargeable battery.When rhythm of the heart monitoring portion (not showing in Fig. 3) detects arrhythmia, pulse generator 17 can control stimulating electrode 18 and send stimulating current and stimulate cardiac muscle, makes the rhythm of the heart recover normal.

< variation >

This variation is compared with embodiment one, and except the shape of the main body that generates electricity is except Long Circle, arranging of other is all identical.As shown in Figure 4, the shape of generating main body 42 is Long Circle, and on oblong two summits, place has fixed cell 41, and the shape of generating main body 42 is that oblong advantage is do not have sharp-pointed corner, contributes to alleviating the damage to heart.

Certainly, the shape of the generating main body of implanted self energizing cardioverter-defibrillator of the present utility model can be various shape, is not limited only to triangle, tetragon and Long Circle in above-mentioned two embodiments.

Claims (7)

1. an implanted self energizing cardioverter-defibrillator, is characterized in that, comprising:

For generation of the pulse generator of electricity irritation;

The stimulating electrode be connected with described pulse generator;

For measuring the chip of heart rate; And

For the Power Generation Section that described chip and described pulse generator are powered,

Wherein, described Power Generation Section comprises generating main body, output unit, energy storage unit, fixed cell and encapsulated layer,

Described generating main body is multi-layer film structure, comprises the piezoelectric material layer being positioned at described generating main center, and is positioned at the electrode layer of piezoelectric material layer both sides, described generating main body by being attached at heart surface to gather cardiac energy for generation of electric energy,

Described output unit is connected with described electrode layer, exports to described energy storage unit for electric current generating main body produced,

Described energy storage unit is used for storage of electrical energy and powers for described chip and described control part,

Described fixed cell is positioned at the edge of described generating main body, for generating main body is fixed on visceral pericardium,

Described encapsulated layer is covered in the surface of described generating main body, described output unit, described energy storage unit and described fixed cell.

2. implanted self energizing cardioverter-defibrillator as claimed in claim 1, is characterized in that:

Wherein, the shape of described generating main body is tetragon, and described fixed cell is positioned at the centre on two narrow limits of tetragon.

3. implanted self energizing cardioverter-defibrillator as claimed in claim 1, is characterized in that:

Wherein, the shape of described generating main body is triangle, and described fixed cell is positioned at leg-of-mutton three summits.

4. implanted self energizing cardioverter-defibrillator as claimed in claim 1, is characterized in that:

Wherein, the shape of described generating main body is Long Circle.

5. implanted self energizing cardioverter-defibrillator as claimed in claim 1, is characterized in that:

Wherein, described piezoelectric material layer contains nanoscale piezoelectric, and described nanoscale piezoelectric is any one in piezoquartz, piezoelectric ceramics and organic piezopolymer, and described piezoquartz is at least one deck zinc oxide nano-wire array.

6. implanted self energizing cardioverter-defibrillator as claimed in claim 5, is characterized in that:

Wherein, described piezoquartz, piezoelectric ceramics, organic piezopolymer can be the single or multiple lift structure of nanoscale piezoelectric.

7. implanted self energizing cardioverter-defibrillator as claimed in claim 1, is characterized in that:

Wherein, output unit has output electrode and current rectifying and wave filtering circuit.