SU1463305A1 - Apparatus for investigating the work of isolated heart - Google Patents

Abstract

The invention relates to medical technology, namely, devices for the study of the work of an isolated heart, and can be used in cardiology in the study of cardiotropic drugs and the evaluation of the effectiveness of cardiopulmonary techniques. The purpose of the invention is to reduce the size of the device and increase the accuracy of the research results by automatically adjusting the dynamic parameters. New in the device is that it is equipped. The invention relates to the field of medical technology and can be used for research on an isolated heart. The purpose of the invention is to reduce the size of the device and increase the results of the study by automatically regulated and dynamic parameters. Figure 1 shows the proposed device, a general view of Figure 2 - with an additional camera installed at the entrance of the chamber of the filling diastolic pressure unit, each of the two movable partitions is provided with a corrugation and strengthened with a rigid plate (P, and P). The setpoint adjuster of the diastolic blood pressure is equipped with an L-shaped protrusion, and the pressure sensor of the diastolic filling pressure is equipped with an L-shaped lever attached to it, a flap placed in the cavity of the additional chamber. In this case, the working surface of the valve is perpendicular to the surface P, and the angle between the working surface of the L-shaped protrusion and P is equal to the angle of rotation P;,. By changing the lumen of the lines connecting the pneumatic chambers of the chambers with the corresponding receivers, the required shape of the pressure change at the outlet and entrance of the ventricle over time is achieved. Maintaining the aperture operating mode is automatic. 1 hp f-ly, 8 ill. Section A-A in FIG. 1; FIG. 3 is a section BB in FIG. one; FIG. 4 shows the general housing of the device; Fig. 5 shows a common diaphragm j in Fig. 6; a section B-B in Fig. 5; Fig.7 - section GGD on Fig.5J in Fig, 8 - gasket. The device for operating an isolated heart contains a thermostated chamber 1 with a non-return valve 2 for connecting the outlet 3 of the left ventricle 4, the unit 5 diastolic (L 4 Od o C o d

Description

fo blood pressure, systolic blood pressure setter 6 with diaphragm 7 connected to chamber 1 and connected to exit 3 of the left ventricle 4, setter 8 of diastolic filling pressure and cardiac pacemaker (not shown)

The diastolic blood pressure sensor 5 and the diastolic filling pressure adjuster 8 include chambers 9 and 10, respectively, with movable baffles | MI 11 and 12, each dividing wall to a blood cavity and pneumatic cavity. The device also contains an additional chamber 13 installed at the inlet 14 of the chamber 10 of the setter | 8 of the diastolic filling pressure, Chamber 10, in turn, is connected to the entrance 15 of the left ventricle. (Each of the movable orifices 10 and 12 is provided with corrugations 16 and 17. Correspondingly, they have the smallest section in the shape of an ellipse or a circle. The gasket 28 has an elliptical or oval-shaped window 31 with sloped "walls" to form a passage 30. In the longitudinal direction, the passage 30 preferably has a smooth mating with housing 25. The interfaces between entrance 14 of chamber 10 and chamber 13 are rectangular. The interfaces of chambers 9, 10 and 13 and the surfaces 32 of housing 25 in contact with the gasket.28 are rectangular. The surfaces inside the housing 25 are smooth and polished. The diaphragm 26 can be made of polyethylene, silicone or polyurethane.

Corrugations 16 and 17 can be reinforced with rigid and oval semi-rings made of steel or plastic. The housing 25, the diaphragm 26, the cover 27 and the gasket 28 contain holes for the passage

Vetalno and strengthened with rigid plastic fixing screws. Additional

Tins 18 and 19. Plate 18 of the diastolic blood pressure adjuster 5 is provided with an L-shaped protrusion 20, and control plate 19 of the diastolic filling pressure gauge is attached to it. The L-shaped lever 21 and the flap 22 are expandable in the additional cavity: chamber 13. The working surface 23 of the chamber 13 is provided with struders 33 for connecting the artery and vein of the donor animal. All parts, except for the diaphragm 26 and valve 2, must be 30 sufficiently rigid. And they can be made of Plexiglas, Teflon and other biocompatible materials. The fittings of the cover 27 are connected to the receivers of the required volume, equipped with

The slots 22 are perpendicular to the surface by regulators and connected to the source; Angle between working

; the top 24 of the L-shaped protrusion 20; and the Plaszhina 18 is equal to the angle of rotation

pressure (not shown).

A device for examining the work of an isolated heart works as follows.

plates 18. Chamber 9 setting device 5 of diastolic arterial pressure, chamber 10 setting device 8 of diastolic filling pressure and additional. the chamber is made in a single flat housing 25. The movable partitions 11 and 12 setting devices 5 and B and the mobile diaphragm 7 setting device 6 of the systolic blood pressure are integrally filled as a single flexible diaphragm 26. The device is equipped with a roof 27 with air holes for air pressure and a rigid gasket 2b with windows in the form of chambers 9, 10 and 13. Aperture 26 is reinforced by plates 18 and 19 and plate 29., made according to.

the shape of the gasket 28 with bladders for the forgg of arterial pressure with the help of belt plates 18 and 19. The setting unit 6 of the sys- temulators sets the required pressure values. In this state, the input 14 of the chamber 10 is closed by a shutter 22,

arterial pressure is complete in the form of passage 30 in housing 25 and gasket 28. Passage 30 of the pre-exit of chamber 9 is blocked by an L-shaped

chamber 13 is equipped with tweezers 33 for connecting the artery and vein of a donor animal. All parts, except the diaphragm 26 and valve 2, must be 30 sufficiently rigid. And they can be made of Plexiglas, Teflon and other biocompatible materials. The fittings of the cover 27 are connected to the receivers of the required volume, equipped with

regulators and connected to the source

0

pressure (not shown).

A device for examining the work of an isolated heart works as follows.

The sterilized device in the assembled form is fixed on a tripod in a transparent temperature-controlled cabinet and filled with donor blood or saline. To connect the frame 33 is connected through pipelines. artery and vein of a donor animal.

The insulated isolated heart under investigation is connected to the input of camera 1 and the output of camera 10. Electrocardiac stimulator electrodes are connected to the left ventricle, pneumatic cavities of chambers 10 and 11 and in the pneumatic cavity of the generator 6 of the diastolic

0

the output of the camera 9 is blocked by an L-shaped

the protrusion 22, and the passage 30 is blocked by the diaphragm 7. The volume of the chamber 9 is minimal, and the volume of the chamber 10 is maximum.

When an electrical pulse is applied from an electric cardiac pacemaker, the isolated heart contracts. As soon as the pressure in the left ventricle exceeds the pressure in chamber 10, the check valve 2 closes. As soon as the pressure in the left ventricle exceeds the pressure on the diaphragm 7, it finally moves, opening the passage 30. When the pressure in the cavity for the blood of chamber 9 exceeds the pressure in the pneumatic cavity, the partition 11 is moved to the right (Fig. 7), and the outflow of the camera. -opens. Blood is leaking from the chamber.

9 until the pressure in the cavity for the blood of chamber 9 falls below the pressure in part of its pneumatic viscosity.

When the pressure in the left ventricle reaches the pressure on the diaphragm 7, the latter closes the passage 30. When the pressure in the left ventricle becomes less than the pressure in chamber 9, the check valve 2 opens, and the coronary vessels undergo a predetermined pressure.

When the pressure in the left ventricle becomes lower than the pressure in chamber 10, the ventral mitral valve opens, and blood begins to fill the ventricle, leaving chamber 10. As soon as the pressure in the cavity for the blood chamber

10 there will be less pressure in its pneumatic cavity, the partition 12, which was in the extreme right position, moves to the left. At the same time, the valve 22 opens the entrance 14 of the chamber 10, and the blood begins to flow

into the chamber 10 from the additional chamber 13. When the pressure in the cavity for blood of the chamber 10 exceeds the pressure in its pneumatic cavity, the inlet 14 is blocked and the flow of blood into the chamber 10 is stopped.

By changing the lumen of the lines connecting the pneumatic chambers of the chambers with the corresponding receivers, any desired form of pressure change at outlet 3 and at the inlet 15 of the ventricle 4 in time can be achieved.

Claims (2)

1. A device for examining the operation of an isolated heart, containing a thermostated chamber with an emergency valve and a port for the left ventricle, a diastolic blood pressure unit with a non-return valve connected to the camera, a systolic blood pressure unit connected to the left ventricular outlet, a unit. a diastolic filling pressure and a pacemaker, each unit of the diastral blood pressure and unit of the diastolic filling pressure consists of a chamber with movable partition dividing it into the cavity for blood and pneumopo. The difference is that, in order to reduce the size of the device and increase the reliability of the test results by automatically adjusting the dynamic parameters, it is equipped with an additional camera installed at the inlet of the diastolic filling pressure setting device and reinforced with a rigid plate At the setting point of the diastolic blood pressure, the plate has a L-shaped protuberance, and at the setting point of the diastolic filling pressure, the plate has a T-o different plane shutter lever housed in the cavity of the additional chamber, wherein the working surface of the valve perpendicular to the plate surface corresponding to it, and the angle between working surfaces Stu T-shaped protrusion and the plate is equal to the angle of rotation of the plate. 2. The device according to Claim 1, characterized in that, in order to increase sterility and reduce the preparation time of the device for operation, it is equipped with arms with holes R with a rigid gasket, arterial pressure and diastolic filling pressure chambers and an additional chamber the common case, the movable partitions of these devices and the movable membrane of the systolic arterial pressure unit are made in the form of a common diaphragm. wg g aa j 27 25 33 eight 12,   tf.S 7 29 / 32 / / // ag 29 eleven nineteen P / U .r Editor N. Yatsola Compiled by N. Panfilov Tehred L. Serdyukova Proofreader E. Lonchakova Order 762/9 Circulation 527 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR, 113035, Moscow, Zh-35, Raushsk nab. 4/5 X 6 / 31 ig.v Subscription