CN103330964B - With the artificial heart system of blood pressure regulating mechanism - Google Patents

Abstract

An artificial heart system with a blood pressure regulating mechanism in the field of biomedical engineering, including blood inlet, one-way valve, trachea, artificial heart, outlet blood vessel, blood inlet branch, outflow branch, cardiac membrane, volume chamber, mobile body and elasticity Components, the heart membrane connects the gas cavity and the blood cavity of the artificial heart, the outlet of the blood inlet branch is connected with the right side of the blood cavity, the inlet of the bleeding branch is connected with the left side of the blood cavity, and the moving body is installed in the volume cavity and connected with the volume The inner wall of the cavity is in sealing contact, and the right wall of the moving body is connected with the right wall of the volume cavity through the elastic component. When the pressure of the blood vessel is high, the moving body moves to the right, and the blood entering the blood cavity decreases; when the pressure of the blood vessel is low, the moving body moves to the left, and the blood entering the blood cavity increases. The invention has reasonable design and simple structure, and is suitable for the artificial heart system of patients who are sensitive to blood pressure.

Description

Artificial heart system with blood pressure regulation mechanism

technical field

The invention relates to an artificial heart system in the field of biomedical engineering, in particular to an artificial heart system with a blood pressure regulating mechanism.

Background technique

The artificial heart is to partially or completely replace the pumping function of the heart with biomechanical means to maintain blood circulation throughout the body. Divided by function, it includes ventricular assist blood pump and total artificial heart. Artificial heart transplantation is a means of treating heart failure and an effective alternative to heart transplantation. A total artificial heart is a device used to replace the lower two chambers of the heart. These two replaced chambers are called "ventricles". This device may be used if a patient has advanced heart failure where both ventricles are no longer functioning. Heart failure is the inability of the heart to pump enough blood to meet the body's needs because it is damaged or weakened. "Advanced" means that the heart failure is so severe that all other treatments other than a heart transplant are ineffective. There are two situations in which a patient may need a total artificial heart: the patient may need a total artificial heart to sustain life until a transplantable heart is available; the patient is not eligible for a heart transplant but has reached an advanced stage of heart failure where both ventricles are gradually losing function; The total artificial heart is attached to the patient's atrium. Artificial heart technology is a very advanced biomedical technology. With the gradual increase of heart patients in modern society, artificial heart technology will have a very broad application prospect.

After searching the existing technical literature, it was found that Chinese Patent No. 99126700.1, patent name: gas-electric integrated blood pump, gas-electric integrated artificial heart, this patent technology provides a solution for simplifying the blood pump and miniaturizing the artificial heart, but it Failure to effectively adjust the bleeding pressure of the artificial heart out of the blood vessel will easily cause the patient's blood pressure to fluctuate greatly.

Contents of the invention

The present invention aims at the deficiencies of the above-mentioned prior art, and provides an artificial heart system with a blood pressure regulating mechanism, which can effectively prevent and regulate the bleeding pressure of the blood vessels of the artificial heart.

The present invention is achieved through the following technical solutions, the present invention includes blood vessel, one-way valve, trachea, artificial heart, blood vessel, first adapter, first blood inlet branch, second blood inlet branch, second adapter , the first bleeding branch, the second bleeding branch, the heart membrane, the connecting tube, the third blood inlet branch, the volume cavity, the moving body, the elastic component, the one-way valve is installed in the blood inlet, the heart membrane is installed in the artificial heart and put The artificial heart is divided into gas cavity and blood cavity. The gas cavity is located on the upper part of the artificial heart. One end of the trachea is connected to the gas cavity. The inlet of the first adapter is connected to the outlet of the blood vessel. The outlets of the first adapter are respectively It is connected with the inlet of the first blood inlet branch and the inlet of the second blood inlet branch, the outlet of the third blood inlet branch and the outlet of the second blood inlet branch are all connected to the right side of the blood cavity, and the outlet of the second adapter It is connected with the inlet of the blood vessel, and the inlet of the second adapter is respectively connected with the outlet of the first bleeding branch and the outlet of the second bleeding branch, and the inlet of the first bleeding branch and the inlet of the second bleeding branch are connected with the blood cavity The left side is connected, the outlet of the third blood-inlet branch is above the outlet of the second blood-inlet branch, the inlet of the first outflow branch is above the inlet of the second outflow branch, and the inlet of the connecting pipe is connected with the blood-inlet and located in a one-way Upstream of the valve, the outlet of the connecting pipe is connected with the left side wall of the volume chamber, the outlet of the first blood inlet branch is connected with the lower side wall of the volume chamber, and the inlet of the third blood inlet branch is connected with the upper side wall of the volume chamber Generally, the moving body is installed in the volume cavity and is in sealing contact with the inner wall of the volume cavity, and the right wall of the moving body is connected with the right wall of the volume cavity through elastic components.

Further, in the present invention, the inner diameters of the first blood-inlet branch, the second blood-inlet branch, the third blood-inlet branch, the first outflow branch, and the second outflow branch are all the same, the cross-section of the volume cavity is rectangular, and the elastic member is spring.

In the working process of the present invention, the trachea is connected with the gas source, and when the pressure in the gas chamber is small, the heart membrane bounces upward, the volume of the blood chamber becomes larger and the pressure becomes smaller, and the one-way valve in the blood vessel opens, The blood flows into the blood chamber through the first blood inlet branch, the second blood inlet branch and the third blood inlet branch; when the pressure in the gas chamber is high, the heart membrane bounces downward, and the volume of the blood chamber decreases and the pressure increases , the one-way valve in the blood vessel is closed, and the blood flows out of the blood cavity through the first bleeding branch and the second bleeding branch. When the pressure in the blood vessel is high, the pressure in the volume cavity on the left side of the moving body is also high, and the moving body moves to the right and compresses the elastic part, and the blood volume flowing through the third blood-inlet branch decreases, thereby causing the bleeding of the out-of-vessel The pressure becomes smaller; when the pressure in the blood vessel is small, the pressure in the volume cavity on the left side of the mobile body is also small, and the mobile body moves to the left under the action of the elastic component, and the blood volume flowing through the third blood vessel branch increases. Thereby, the bleeding pressure of the blood vessels returns to normal.

Compared with the prior art, the present invention has the following beneficial effects: the present invention can realize the self-regulation of the bleeding pressure of the blood vessel by changing the blood flow entering the blood cavity, so that the bleeding pressure can also be adjusted under the condition of high blood pressure. Maintain stability; the invention has reasonable design, simple structure and broad application prospects.

Description of drawings

Fig. 1 is a structural representation of the present invention;

Figure 2 is a partially enlarged view of Figure 1;

Fig. 3 is a structural schematic diagram of section A-A in Fig. 1;

Among them: 1. Inlet blood vessel, 2. One-way valve, 3. Trachea, 4. Artificial heart, 5. Outlet blood vessel, 6. First adapter, 7. First blood inlet branch, 8. Second blood inlet branch, 9. Second adapter, 10. First bleeding branch, 11. Second bleeding branch, 12. Cardiac membrane, 13. Gas chamber, 14. Blood chamber, 15. Connecting tube, 16. Third blood inlet branch, 17 , volume cavity, 18, mobile body, 19, elastic component.

Detailed ways

The embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings. This embodiment is based on the technical solution of the present invention, and provides detailed implementation methods and specific operating procedures, but the scope of protection of the present invention is not limited to the following embodiments. .

Example

As shown in Figure 1, the present invention includes an inlet blood vessel 1, a one-way valve 2, a trachea 3, an artificial heart 4, an outlet vessel 5, a first adapter 6, a first blood inlet branch 7, a second blood inlet branch 8, a first Two adapters 9, the first bleeding branch pipe 10, the second bleeding branch pipe 11, the cardiac membrane 12, the connecting pipe 15, the third blood inlet branch pipe 16, the volume cavity 17, the moving body 18 and the elastic member 19, and the one-way valve 2 is installed on Into the blood vessel 1, the heart membrane 12 is installed in the artificial heart 4 and divides the artificial heart 4 into two parts, the gas cavity 13 and the blood cavity 14, the gas cavity 13 is located on the upper part of the artificial heart 4, and one end of the trachea 3 is connected with the gas cavity 13 Through, the inlet of the first adapter 6 is connected with the outlet of the blood inlet 1, the outlet of the first adapter 6 is respectively connected with the inlet of the first blood inlet branch 7 and the inlet of the second blood inlet branch 8, and the third inlet The outlet of the blood branch pipe 16 and the outlet of the second blood inlet branch pipe 8 are all connected with the right side of the blood chamber 14, the outlet of the second adapter 9 is connected with the inlet of the outlet blood vessel 5, and the inlet of the second adapter 9 is respectively connected with the The outlet of the first bleeding branch 10 and the outlet of the second bleeding branch 11 are connected, the inlet of the first bleeding branch 10 and the inlet of the second bleeding branch 11 are all connected to the left side of the blood cavity 14, and the third blood inlet branch 16 The outlet of the first bleeding branch is located above the outlet of the second blood inlet branch 8, the inlet of the first bleeding branch 10 is located above the entrance of the second bleeding branch 11, and the inlet of the connecting pipe 15 communicates with the inlet blood vessel 1 and is located upstream of the one-way valve 2. The outlet of the connecting pipe 15 communicates with the left side wall of the volume chamber 17, the outlet of the first blood inlet branch pipe 7 communicates with the lower side wall of the volume chamber 17, and the inlet of the third blood inlet branch pipe 16 communicates with the upper side of the volume chamber 17. The wall is connected, the moving body 18 is installed in the volume cavity 17 and is in sealing contact with the inner wall of the volume cavity 17, the right wall of the moving body 18 is connected with the right wall of the volume cavity 17 through the elastic member 19, the first blood inlet branch 7 The inner diameters of the second blood inlet branch 8, the third blood inlet branch 16, the first outflow branch 10, and the second outflow branch 11 are all the same, the cross section of the volume chamber 17 is rectangular, and the elastic member 19 is a spring.

In the working process of the present invention, when the pressure in the gas chamber 13 is small, the heart membrane 12 bounces upward, the volume of the blood chamber 14 becomes larger and the pressure becomes smaller, the one-way valve 2 in the blood vessel 1 is opened, and the blood passes through The first blood inlet branch pipe 7, the second blood inlet branch pipe 8 and the third blood inlet branch pipe 16 flow into the blood chamber 14; when the pressure in the gas chamber 13 is high, the heart membrane 12 bounces downward, and the volume of the blood chamber 14 becomes larger. When the pressure increases, the one-way valve 2 in the blood vessel 1 is closed, and the blood flows out of the blood cavity 14 through the first bleeding branch 7 and the second bleeding branch 8 . When the pressure in the blood vessel 1 is high, the pressure in the volume cavity 17 on the left side of the moving body 18 is also high, the moving body 18 moves to the right and compresses the elastic member 19, and the blood volume flowing through the third blood-inlet branch 16 decreases. Thereby the bleeding pressure of the blood vessel 5 is reduced; when the pressure in the blood vessel 1 is small, the pressure in the volume chamber 17 on the left side of the moving body 18 is also small, and the moving body 18 moves to the left under the action of the elastic member 19, and the flow The blood volume through the third blood inlet branch 16 increases, so that the bleeding pressure of the outlet blood vessel 5 returns to normal.

Claims (2)

1. An artificial heart system with a blood pressure regulating mechanism, including an inlet vessel (1), a one-way valve (2), a trachea (3), an artificial heart (4), an outlet vessel (5) and a heart membrane (12) , the heart film (12) is installed in the artificial heart (4) and divides the artificial heart (4) into two parts, the gas cavity (13) and the blood cavity (14), and the gas cavity (13) is located at the top of the artificial heart (4) , the one-way valve (2) is installed in the blood inlet (1), and it is characterized in that it also includes a first adapter (6), a first blood inlet branch (7), a second blood inlet branch (8), a second Adapter (9), first outflow branch (10), second outflow branch (11), connecting tube (15), third inflow branch (16), volume cavity (17), moving body (18) and elastic part (19), one end of the trachea (3) communicates with the gas cavity (13), the inlet of the first adapter (6) is connected with the outlet of the inlet vessel (1), and the outlets of the first adapter (6) are respectively It is connected with the inlet of the first blood inlet branch (7) and the inlet of the second blood inlet branch (8), and the outlet of the third blood inlet branch (16) and the outlet of the second blood inlet branch (8) are connected with the blood cavity The right side of (14) is connected, and the outlet of the second adapter (9) is connected with the inlet of the outlet vessel (5), and the inlet of the second adapter (9) is respectively connected with the outlet of the first bleeding branch pipe (10), The outlet of the second bleeding branch (11) is connected, the inlet of the first bleeding branch (10) and the inlet of the second bleeding branch (11) are all connected to the left side of the blood cavity (14), and the third blood entering branch ( The outlet of 16) is located above the outlet of the second blood-inlet branch (8), the inlet of the first outflow branch (10) is located above the inlet of the second outflow branch (11), and the inlet of the connecting pipe (15) is connected to the inlet of the blood vessel (1 ) and located upstream of the one-way valve (2), the outlet of the connecting pipe (15) communicates with the left side wall of the volume chamber (17), the outlet of the first blood inlet branch (7) communicates with the volume chamber (17) The lower side wall of the third blood inlet branch (16) is connected to the upper side wall of the volume chamber (17), and the moving body (18) is installed in the volume chamber (17) and connected to the volume chamber (17) The inner wall surface of the moving body (18) is in sealing contact, and the right wall surface of the moving body (18) is connected with the right wall surface of the volume cavity (17) through the elastic member (19). 2. The artificial heart system with blood pressure regulating mechanism according to claim 1, characterized in that, the first blood inlet branch (7), the second blood inlet branch (8), the third blood inlet branch (16), The inner diameters of the first bleeding branch (10) and the second bleeding branch (11) are the same, the cross section of the volume cavity (17) is rectangular, and the elastic member (19) is a spring.