Flexible heart valve
First Claim
1. A prosthetic heart valve stent, comprising:
- a stent including a plurality of separate stent members adjacently disposed around a circle to define a substantially cylindrical volume therebetween, the stent including a plurality of alternating cusps and commissures, each stent member including an arcuate cusp region and two upstanding commissure regions, wherein each pair of commissure regions of adjacent stent members is juxtaposed to define each stent commissure; and
means for pivotally connecting the stein members together at the stern commissures to enable relative movement of adjacent cusps, wherein each stent member is pivotally coupled to move with respect to the other stent members at the stent commissures.
2 Assignments
0 Petitions
Accused Products
Abstract
A highly flexible tissue-type heart valve is disclosed having a structural stent in a generally cylindrical configuration with cusps and commissures that are permitted to move radially. The stent commissures are constructed so that the cusps are pivotably or flexibly coupled together at the commissures to permit relative movement therebetween. The stent may be cloth-covered and may be a single element or may be made in three separate elements for a three cusp valve, each element having a cusp portion and two commissure portions; adjacent commissure portions for each pair of adjacent stent element combining to form the stent commissures. If the stent has separate elements their commissure portions may be pivotably or flexible coupled, or may be designed to completely separate into independent leaflets at bioresorbable couples. The cloth covering may have an outwardly projecting flap that mates with valve leaflets (e.g., pericardial leaflets) along the cusps and commissures. A connecting band may be provided that follows the cusps and commissures and extends outwardly. The valve is connected to the natural tissue along the undulating connecting band using conventional techniques, such as sutures. The connecting band may be a cloth-covered silicon member and attaches to the underside of the valve at the cusps to provide support to the stent and to the outer side of the valve at the commissures. A multi-legged holder is used to implant the valve, with the legs serving to maintain an implant shape to the valve. The holder may have six legs with one releasably connected to each cusp and one releasably connected to each commissure. A method of implantation of the flexible valve using the holder is also disclosed.
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Citations
51 Claims
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1. A prosthetic heart valve stent, comprising:
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a stent including a plurality of separate stent members adjacently disposed around a circle to define a substantially cylindrical volume therebetween, the stent including a plurality of alternating cusps and commissures, each stent member including an arcuate cusp region and two upstanding commissure regions, wherein each pair of commissure regions of adjacent stent members is juxtaposed to define each stent commissure; and
means for pivotally connecting the stein members together at the stern commissures to enable relative movement of adjacent cusps, wherein each stent member is pivotally coupled to move with respect to the other stent members at the stent commissures. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51)
a flexible, generally cylindrical stent as in claim 1;
a plurality of flexible leaflets attached to the stent so as to form a one-way valve within the cylinder; and
a flexible band attached along the stent and having a free edge extending outward from the stent along the alternating cusps and commissures for connecting the heart valve to an anatomical orifice.
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3. A highly flexible heart valve, comprising:
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a stent/leaflet subassembly including a peripheral stent as in claim 1 and a plurality of leaflets disposed therewithin, the stent/leaflet subassembly including alternating cusps and commissures corresponding to the alternating cusps and commissures of the stent; and
a connecting band attached to the stent/leaflet subassembly and following the alternating cusps and commissures, the band having a free edge extending from the stent for connecting the heart valve to an anatomical orifice.
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4. The heart valve of either of claim 2 or 3, wherein the stent is configured to permit the cusps and commissures to move radially in and out.
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5. The heart valve of either of claim 2 or 3, wherein the stent comprises a cloth-covered rod-like structure.
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6. The heart valve of claim 5, wherein the cloth-covering closely surrounds the rod-like structure and exhibits a flap projecting outward therefrom substantially the entire length of the cusps and commissures for connecting to the band and leaflets.
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7. The heart valve of either of claim 2 or 3, wherein the band comprises a suture-permeable inner member and a cloth outer cover, the band exhibiting continuous cusp portions and commissure portions.
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8. The heart valve of claim 7, wherein the suture-permeable inner member comprises a molded silicone structure.
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9. The heart valve of claim 7, wherein the band comprises an outwardly projecting series of parallel ribs extending continuously along the entire band cusp portions and commissure portions.
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10. The heart valve of claim 7, wherein the commissure portions of the band are generally planar and axially aligned, and the cusp portions of the band each include an outwardly angled portion and an inwardly angled ledge.
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11. The heart valve of claim 10, wherein the inwardly angled ledge of each cusp portion of the band extends inward a distance sufficient to support the corresponding cusp.
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12. The heart valve of either of claim 2 or 3, wherein the band includes arcuate cusp portions generally conforming to the cusps, and the band includes commissure portions therebetween each having an inverted U-shape to define a downwardly opening gap that enhances flexibility of the valve by permitting relative cusp movement.
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13. A prosthetic heart valve, comprising:
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a plurality of flexible leaflets each having an arcuate cusp edge and a coapting edge; and
a stent as in claim 1, the leaflets being attached to the stent within the volume and the cusps being free to move with respect to one another about the commissures.
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14. The heart valve of claim 13, wherein the cusps of the valve are hingedly connected to each other.
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15. The heart valve of claim 14, wherein each pair of commissure regions is connected with sutures to enable relative movement of adjacent cusp regions.
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16. The heart valve of claim 14, wherein each commissure region is connected to pivot about a first axis which is fixed with respect to a second axis about which the adjacent commissure region pivots, both the first and second axes being generally radially oriented with respect to a central axis of the cylindrical volume.
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17. The heart valve of claim 16, wherein the first and second axes are coincident.
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18. The heart valve of claim 17, wherein each commissure region terminates at an arcuate tip, the valve further including coupling members having an arcuate channel therein, the coupling members receiving the arcuate tips of the commissure regions and permitting relative sliding movement about a pivot axis defined by the arcuate channel.
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19. The heart valve of claim 16, wherein each commissure region terminates at a generally circular tip, the valve further including coupling members having a pair of spaced pins provided thereon that defined the first and second axes and about which the circular tips of each commissure region pivot.
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20. The heart valve of claim 14, wherein the valve includes a plurality of pliable coupling members each of which couples to a pair of adjacent commissure regions to permit relative movement therebetween.
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21. The heart valve of claim 20;
- wherein each commissure region terminates at a generally linear tip, the pliable coupling members comprising pliable tubular sleeves closely fitting over the linear tips.
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22. The heart valve of claim 13, wherein the means for connecting the stent cusps together comprises sutures.
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23. The heart valve of claim 13, wherein the means for connecting the stent cusps together comprises a flexible material interface.
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24. The heart valve of claim 13, where the means for connecting the stent cusps together comprises a bioresorbable Structure.
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25. The heart valve of claim 13, wherein the stent comprises a cloth-covered rod-like structure.
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26. The heart valve of claim 25, wherein the cloth-covering closely surrounds the rod-like structure and exhibits a flap projecting outward therefrom substantially the entire length of the cusps and commissures.
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27. The heart valve of claim 26, wherein the flap has a width that varies along the cusps and commissures of the stent, the flap being narrower in the cusps.
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28. The heart valve of claim 26, further including a flexible band attached along the stent flap and having a free edge extending outward from the stent along the alternating cusps and commissures for connecting the heart valve to an anatomical orifice.
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29. The heart valve of claim 28, wherein the cusp edges of the leaflets are attached between the band and the stent flap.
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30. The heart valve of claim 28, wherein the band exhibits continuous cusps and commissures, the cusps of the band each including an outwardly angled portion and an inwardly angled ledge extending inward a distance sufficient to support the corresponding cusp of the stent.
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31. The heart valve of claim 25, wherein the rod-like structure is made of a polymer.
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32. The heart valve of claim 13, wherein each separate stent member is separately cloth-covered.
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33. The heart valve of claim 32, wherein each upstanding commissure region terminates in a substantially circular bent tip, adjacent bent tips of each separate member being juxtaposed and sutured together through the respective cloth coverings.
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34. The heart valve of claim 13, wherein each leaflet includes an arcuate cusp edge terminating at outer tips joined to the stent commissures, and a coapting edge that is defined by two relatively angled lines joined at an apex midway between the two tips.
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35. The heart valve of claim 34, wherein each leaflet is made of pericardial tissue.
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36. The heart valve of claim 34, wherein the arcuate cusp edges gradually become asymptotic at the tips.
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37. The heart valve of claim 34, further including an outwardly angled transition edge from the arcuate cusp edges to the tips.
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38. The heart valve of claim 37, wherein a generally linear edge is defined between each outwardly angled transition edge and the corresponding tip defining a generally trapezoidal tab adjacent the tips.
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39. The heart valve of claim 2 or 3 wherein each leaflet includes an arcuate cusp edge terminating at outer tips joined to the stent commissures, wherein adjacent tips are joined not to each other but to portions of the stent that are permitted to move with respect to one another.
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40. The heart valve of claim 39, further including a flexible band attached along the stent and having a free edge extending outward from the stent along the alternating cusps and commissures for connecting the heart valve to an anatomical orifice, the band defining an inverted U-shape at the stent commissures with a gap formed between portions of the stent that are permitted to move with respect to one another.
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41. The heart valve stent of claim 1, wherein the means for connecting the stent members together comprises sutures.
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42. The heart valve stent of claim 1, wherein the means for connecting the stent members together comprises a flexible material interface.
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43. The heart valve stent of claim 1, where the means for connecting the stent members together comprises a bioresorbable structure.
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44. The heart valve stein of claim 1, wherein each commissure region is connected to pivot about a first axis which is fixed with respect to a second axis about which the adjacent commissure region pivots, both the first arid second axes being generally radially oriented with respect to a central axis of the cylindrical volume.
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45. The heart valve stent of claim 1,
wherein each commissure region is connected to pivot about a first axis which is fixed with respect to a second axis about which the adjacent commissure region pivots, both the first and second axes being generally radially oriented with respect to a central axis of the cylindrical volume; wherein each commissure region terminates at a generally circular tip, the stern further including coupling members having a pair of spaced pins provided thereon that define the first and second axes and about which the circular tips of each commissure region pivot.
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46. The heart valve stent of claim 44, wherein the first and second axes are coincident.
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47. The heart valve stent of claim 1,
wherein each commissure region terminates at an arcuate tip, the stent further including coupling members having an arcuate channel therein, the couping members receiving the arcuate tips of the commissure regions and permitting relative sliding movement about a pivot axis defined by the arcuate channel. -
48. The heart valve stent of claim 1, wherein the valve includes a plurality of pliable coupling members each of which couples to a pair of adjacent commissure regions to permit relative movement therebetween.
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49. The heart valve stent of claim 48, wherein each commissure region terminates at a generally linear tip, the pliable coupling members comprising pliable tubular sleeves closely fitting over the linear tips.
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50. The heart valve stent of claim 1, wherein each stein member is flexibly coupled with respect to the other stent members at the stent commissures.
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51. The heart valve stent of claim 50, wherein each stent member is elastically coupled with respect to the other stent members at the stent commissures.
Specification