DE3128704A1 - Artificial heart valve - Google Patents

Abstract

The invention relates to an artificial heart valve having an implantable heart-valve ring (10) in which two semicircular valve flaps (13) are rotatably mounted in a double-winged arrangement. In order to achieve a better approximation to the function of a healthy heart valve it is intended that the valve flaps (13) be arranged on a common axis (12) and carry mutually repelling permanent magnets (15) whose magnetisation is sufficient for preventing the valve flaps (13) from hitting one another. In particular, the permanent magnets (15) are arranged so as to be adjacent to the common axis (12), while further stops (15, 18) may be provided as a safeguard against tipping over of the valve flaps (13). <IMAGE>

Description

H e r z k l a p p e n p r o t h e s e

The invention relates to a heart valve prosthesis according to the preamble of claim 1.

As from "Deutsches Ärzteblatt", issue 5 of 9.4.1981, pages 725 - 732, it is known, there are different types of heart valve prostheses, according to Lich those with a ball valve, a lifting disc valve or a tilting disc valve as well as so-called bloprotheses. These will have the multiple properties of an intact however, does not do justice to healthy heart valves in a satisfactory manner. This is how the ball valve tilts to thrombus formation on their metal cage and thus to arterial embolisms. A Textile cover reduces the rate of embolism, but increases the frequency and extent mechanical hemolysis. There is another problem besides the audible "click" in the installation size. Due to unfavorable #modynamics, Thrcmbo'entolien, wämolysen and signs of wear and tear unsatisfactory results. Lead bioprostheses to relatively high pressure gradients as well as tilting disc caps, which also Cause noises and lead to thromboembolism. This also applies to the double-wing heart valve prosthesis from St. Jude Medical, in which the two Valve flaps are stored separately from one another and in the closed state against one another and hit the inner wall of a clapper ring. This results in a nuttlerer and two lateral flow areas, one in the middle being a relatively narrow flow area A trapped thrombus can impair or even stop the valve function. In addition, the valve flaps rotate in the middle area against the Direction of flow.

The object of the invention is to provide a heart valve prosthesis according to the preamble of claim 1 to create whose funct tone properties are that of a healthy one Bring the heart valve closer together.

This task is according to the characterizing part of the claim 1 solved.

Further refinements of the invention can be found in the description below and to be found in the subclaims.

By arranging the valve flaps around a central axis a largely unhindered flow with advantageous ha ~ mrdyn = ical flow conditions guaranteed. In the open position there are two almost semicircular flow openings. The opening angle of the two valve flaps can be about 80 to 85 °. The magnet arrangement prevents the opening of the heart valve prosthesis from occurring Repulsive forces cause the valve flaps to collapse so that no noise is generated entry. In addition, the magnet arrangement ensures that the door closes quickly the heart valve prosthesis, depending on the location of the heart valve prosthesis the heart valves by systolic or diastolic pump function of the heart in Can be tilted in the open position. In the closed position, the two are semicircular Valve flaps preferably with an inclination of about 300 to the radial plane of the Kleppenring arranged.

The closure time of the heart valve prosthesis can be determined by the strength of the permanent magnets and the pendulum volume can be favorably influenced. By artificial aging of the Magnets is an extensive constancy of the magnetic field strength problem-free and inexpensive possible over approx. 70 years, so that during the normal period of life of a person the properties of the heart valve prosthesis in this context remain practically unchanged.

As a result of the arrangement of the valve flaps on a central axis with only one direction of rotation and due to the relatively small angle of action a quick flap closure or a quick flap opening can be achieved. Pendulum volume, The shutter speed, the generation of turbulence and the pressure gradient are favorably influenced, so that the heart is relieved. Due to the favorable current flow with low frictional flow, The hemolysis is low, also favored by the disc shape of the valve flaps. this also applies to the thrcmogenic properties. A ~ q solved Heart beats are without restriction of the valve function due to the large opening area largely consistently. The heart valve prosthesis can have any of the four heart valves in childhood as well as in adulthood.

The tissue compatibility is compared to other tilting disc flaps unchanged, since practically the same materials are used with the exception of the magnets. The radiopacity is given. The coronary ostia are not in the aortic position blocked. The fastening of the heart valve prosthesis in the tissue can be carried out in a known manner via a tissue ring that surrounds the valve ring on the outside circumference. as Stops can be provided to prevent the valve flaps from tipping over.

The invention is described below with reference to the accompanying figures substantially schematically illustrated embodiments explained in more detail.

Fig. 1 shows a heart valve prosthesis in a partially open state against the direction of flow in front view.

Fig. 2 shows a heart valve prosthesis in section with something changed Execution form

Fig. 3 and 4 show two Ausihrungsformen of stops for Valve flaps.

The heart valve prosthesis shown in FIG. 1 has a valve ring lo, on the outside a tissue ring 11 for sewing in the heart valve prosthesis is attached to the surrounding heart tissue. The valve ring 1o takes a central one in the region of one end of the cylindrical valve ring 1o in a radial plane thereof arranged axis 12 (not visible in Fig. 1) to the two semicircular and disc-shaped valve flaps 13 are rotatably arranged.

The valve flaps 13 can here as in a piano hinge arrangement each with a sleeve 13a attached to the axle 12 and rotatably mounted about it be, with optionally a separating disk 14 between the two in opposite directions rotating sleeves 13a is arranged.

Since the valve flaps 13 from the flap ring 1o in the open state protrude, the axis 12 is expediently slightly outside of the opposite Edge of the valve ring 10 arranged to prevent a possible blocking of the coronary ostia Avoid in aortic position.

Throne beneath the flow direction against the sleeves 13a in the area the axis 12 are because of the two large opening areas of the heart valve prosthesis rinsed in water without impairing the function of the two valve flaps 13.

The valve flaps 13 have a thickened one adjacent to the axis 12 Area 13b, in each of which a permanent magnet 15 is embedded. The two Permanent magnets 15 of the valve flaps 13 have such a pole arrangement that they repel each other, i.e. that the north and / or south poles <depending on the direction of magnetization) face each other. The magnetization of the permanent magnets 15 is to be selected so that it is sufficient to prevent the valve flaps 13 from slamming shut, however, they should not interfere with the opening of the prosthetic heart valve, i. maximum opening angle. the valve flaps 13 allow.

If necessary, a permanent magnet rod 16 can also be parallel to the axis 12 be arranged directly above the two sleeves 13a in the valve ring 10, which repels the permanent magnets 15 and so a knocking together and additionally a The valve flaps 13 are prevented from tipping over.

A Seco material (rare Earth-cobalt), if necessary with a plastic coating, or a ceramic one magnetic material can be used. By artificial aging of the magnet Materials, a largely constant magnetic field strength can be achieved over decades. Possible deposits on the magnets 15, 16 would have with regard to the field strength no influence, but something like this should be caused by the constant movement of the valve flaps 13 should be avoided.

The surfaces of the two valve caps facing the opening side 13 are to be provided with a hemodynamically good shape, while the other, the Outflow tract bsEgrenzencle side is just designed. The locking edge in the Valve flaps 13 is to be designed in such a way that jamming in the closed position be avoided. For this purpose, the circumference of the valve flaps 13 can be reinforced and / or be rounded off and in the flap ring 10 a support for the valve flaps 13, which preferably does not restrict the flow width, may be provided.

The valve flaps 13, the axis 12 and, if necessary, the flap ring lo can be made of a tough polycarbonate such as Pyrolyt o.dgi. exist. Alternatively you can the axis 12 and the flap ring lo are made of metal.

In the embodiment shown in FIG. 2, the permanent magnet rod is used 16 as a stop for the valve flaps 13 in the form of an anti-tip device. With the appropriate Selection of the magnetic strengths of the permanent magnets 15 can, however, also be made from this rod another non-magnetic material, such as a metal. aside from that it can be replaced by a stop 17 (see FIG. 3) for each valve flap 13, which are each attached in the valve ring lo, but not continuously like the Rod 16 are. The stops 17 can optionally also be made of magnetic material exist. They prevent that valve flap 13, the sleeve from tipping over 13a facing the side of the corresponding stop 17. The attacks for that Overturning protection can also be arranged on the axis 12, in which case the shell 13a corresponding to the movement of the valve flaps 13 not impairing Have recesses so that the stops only in the maximally open position the valve caps 13 become effective. It is also possible to be adjacent in the valve ring 1o a groove 18 (cf. FIG. 4) in the swivel area for the axis 12 of the respective valve flap 13, the length of which corresponds to the pivot angle of the Valve flap 13 corresponds to and in which an approach located on the valve flap 13 (not shown) protrudes. The inner ends of the grooves are then used for these approaches 18 as stops for the overturn protection.

Blank page

Claims (10)

A n p r ü c h e Q Heart valve prosthesis with an implantable Flap ring (10) in which two semicircular valve flaps (13) in a double-wing arrangement are rotatably mounted, characterized in that the valve flaps (13) on a common axis (12) are arranged and repelling permanent magnets (15) wear whose magnetization is sufficient to cause the valve flaps to collapse (13) to prevent. 2. Heart valve prosthesis according to claim 1, characterized in that The magnets (15) are arranged adjacent to the common axis (12) of the heart valves (13) are. 3. Heart valve prosthesis according to claim 2, characterized in that the magnets (15) in opposed, thickened sections (13b) of the valve flaps (13) are embedded. 4. Heart valve prosthesis according to one of claims 1 to 3, characterized characterized in that parallel to the common axis (12) and adjacent thereto in the axial plane of the flap ring (lo) stops (16, 17) to prevent overturning fiz the valve flaps (13) are provided 5. Heart valve prosthesis according to claim 4, characterized characterized in that the stops are secured by a rod in the valve ring (io) (16) are formed, which is adjacent in the open state of the valve flaps (13) to the permanent magnets (15) of the valve flaps (13). 6. Heart valve prosthesis according to claim 4 or 5, characterized in that that the stops (16, 17) made of permanent magnetic material, the permanent magnets (15) of the valve flaps (13) repelling exist. 7. Heart valve prosthesis according to claim 4, characterized in that the stops are arranged on the common axis (12). 8. Heart valve prosthesis according to claim 4, characterized in that the flap ring (10) adjacent to the common axis (12) each has a circular cutout shape Has groove (18), the length of which corresponds to the pivot angle of the associated valve flap (13) corresponds to and in which an approach located on the accessible valve flap (13) protrudes. 9. Heart valve prosthesis according to one of claims 1 to 8, characterized in that that the valve flaps (13) are each half articulated on the common axis (12) are attached. 10. Heart valve prosthesis according to claim 9, characterized in that the valve flaps (13) are arranged in a piano-like manner with respect to the common axis (12) are.