SU1033142A1 - Heart prosthesis - Google Patents

Abstract

HEART PROTESIS, comprising a housing with inlet and outlet nozzles, placed in the body of the ventricular chamber with the diaphragm, atrial chamber, inlet valve, located BCI: CASHFY i | 5 Itap: & -. tehshch ol. , :: 1l I iVOTaaa ,,, on the diaphragm, an annular pneumatic chamber connected to the pneumatic actuator and placed in the outlet pipe, body of the outlet valve, characterized in that, in order to reduce the pressure. the dimensions of the heart prosthesis and the reduction of heat generation; the atrial chamber is located inside the body; it is made in the shape of a truncated cone and its large diameter is rigidly fixed on the diaphragm in the valve inlet fitting, and smaller in the inlet nozzle; spring tension.

Description

The invention relates to medical technology and may be used in cardiovascular surgery to completely or partially replace cardiac function.

A prosthetic heart is known, containing 5 an artificial ventricle connected to a pneumatic drive with valves, divided into two chambers ll by an elastic diaphragm. . .

A disadvantage of the known prosthetic heart is the lack of blood flow to the prosthesis during the systole phase, which leads to an increase in venous pressure: and hemodynamic deterioration. Also known is a heart prosthesis containing a case with an inlet and outlet nozzles located in the housing. A ventricular chamber with a diaphragm, an atrium chamber, an inlet valve placed on the diaphragm, an annular pneumatic chamber connected to the pneumatic actuator, and a placement in the outlet pat, body chopping output valve 2. The disadvantage of this prosthesis is that the artificial atrium is placed in a separate housing and is made in the form of a bellows, which leads to an increase in the size of the prosthetic heart and deterioration of the venous return, and e to poor rmyvaniyu artificial atrium walls 30 and thrombosis.

The purpose of the invention is to reduce the size of the prosthetic heart and reduce thrombus formation. This goal is achieved in that 35 in the heart prosthesis, comprising a housing with inlet and outlet connections, a ventricular chamber with a diaphragm located in the housing, a chamber in front of the heart, an inlet valve placed in the Q-tube, and the annular air chamber connected to the pneumatic actuator. placed in the outlet of the casing of the outlet valve, the camera predator di. located inside the casing, you-;

45 is filled in the shape of a truncated cone and its large diameter is rigidly fixed on the diaphragm at the installation site of the inlet valve, and the smaller one on the inlet nozzle, while the atrial chamber is made of elastic 50 conical reinforced material .; spring tension. The drawing schematically shows a prosthetic heart.

The prosthetic heart consists of a body; 55 1 with input 2 and output 3 with nozzles located in the body of the chamber 4 of the ventricle and chamber 5 of the atrium, the annular air bladder 6, the inlet valve 7 placed on the mobile diaphragm 8, the compartment with the cam 4 and 5 from the pneumatic b, and the output valve 9, placed in the outlet pipe 3 of the housing 1.

Camera 5 is placed in case i and is made in the shape of a truncated cone 10 from an elastic material, ap arched with a spiral conical tension spring 11.

In this case, the cone 10 with its large Liameter 12 is rigidly fixed on the diaphragm 8 at the installation site of the inlet valve 7, and the smaller DZ diameter - on the inlet nozzle 2.; The heart prosthesis works in the following way.

In the period of systole. When pressure is applied to the pneumatic chamber 6 under; the vial diaphragm 8 begins to move in the direction of the outlet nozzle 3. The inlet valve 7 is closed, the outlet valve 9 opens, and blood is pumped into the arterial blood circulation system. Simultaneously with a decrease in the volume of the ventricular chamber, the volume of the atrial chamber increases, d 5 and blood from the venous bed flows through the inlet 2 into the atrial chamber 5 During the diastole period. If the discharge is supplied to the pneumatic chamber, b, the diaphragm 8 moves in the direction of the inlet 3 branch pipe. When, the outlet valve 9 is closed, and the inlet valve 7 opens, and blood from the venous bed and the atrial chamber 5, which reduces its volume enters the chamber 4 of the ventricle. Dale cycles are repeated.

Thus, both the systole and the diostol are constantly supplying the blood 3 of the venous bed to the heart prosthesis, which eliminates the possibility of pressure pulsations at the entrance to the heart prosthesis and, accordingly, eliminates the pulse resistance to venous return.

At the same time, placement in one core, the chamber of the ventricle and the atrium chamber significantly reduces the size of the heart prosthesis, and the presence of a conical reinforcing spring, ensuring that the spiral direction of blood flow in the atrium chamber and in systole and diastole, prevents the formation of stagnant zones, eliminates The possibility of thrombosis. ,

Claims (2)

HEART PROSTHESIS, comprising a housing with inlet and outlet nozzles, a chamber located in the housing, ‘a ventricle with a diaphragm, a pre- chamber. heart, an inlet valve located on the diaphragm, an annular pneumatic chamber connected to the pneumatic actuator and an outlet valve located in the outlet pipe of the body, characterized in that, in order to reduce the dimensions of the heart prosthesis and reduce thermal formation, the atrium chamber is located inside the body, the shape of a truncated cone and its large diameter is rigidly fixed to the diaphragm in the place of installation of the inlet valve, and smaller to the inlet pipe, while the atrial chamber is made of elastic material, and reinforced with a conical tension spring. ► 3142 2.