Instrument and method for in situ development of cardiac valve prostheses
First Claim
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1. A cardiac valve implantation system for implanting a mitral valve prosthesis at an implantation site associated with a mitral valve annulus, the system comprising:
- an expandable mitral valve prosthesis including an annular inflow portion, an annular outflow portion, and a plurality of valve leaflets;
a deployment instrument including;
a control handle;
a carrier portion for enclosing and carrying the mitral valve prosthesis, the carrier portion including;
a first independently operable deployment element operable to deploy the annular inflow portion at an atrial side of a mitral valve annulus, such that the annular inflow portion is located within the first deployment element when radially constrained;
a second independently operable deployment element operable to deploy the annular outflow portion at a ventricular side of a mitral valve annulus, such that the annular outflow portion is located within the second deployment element when radially constrained; and
a sheath that is attached to and extends proximal to the first deployment element;
a tubular member extending from the control handle and through the carrier portion, wherein the sheath of the carrier portion is configured to slide on the tubular member;
a wire extending from the control handle to the second deployment element and slidably arranged within the tubular member;
a locking member comprising a hub positioned on a distal end of the tubular member, the hub comprising a first end flange and a second end flange that are configured to maintain the annular outflow portion at a fixed axial position along the tubular member in order to prevent any undesired sliding movement of the annular outflow portion with respect to the second deployment element lengthwise of the carrier portion as long as the annular outflow portion is radially constrained by the second deployment element, wherein the first end flange is arranged proximal to the annular outflow portion and the second end flange is arranged distal to the annular outflow portion when the annular outflow portion is maintained at a fixed axial position by the locking member, and wherein the tubular member is connected to the first and second end flanges; and
a delivery device adapted to provide a pathway from outside the patient'"'"'s body for delivery of the deployment instrument to the implantation site.
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Accused Products
Abstract
An instrument for deploying a cardiac valve prosthesis, including a plurality of radially expandable portions, at an implantation site, includes a plurality of deployment elements each independently operable to obtain the radial expansion of a radially expandable portion of the valve prosthesis. A method for deploying the cardiac valve prosthesis includes advancing the instrument to an implant site and independently actuating the radially expandable portions.
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Citations
18 Claims
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1. A cardiac valve implantation system for implanting a mitral valve prosthesis at an implantation site associated with a mitral valve annulus, the system comprising:
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an expandable mitral valve prosthesis including an annular inflow portion, an annular outflow portion, and a plurality of valve leaflets; a deployment instrument including; a control handle; a carrier portion for enclosing and carrying the mitral valve prosthesis, the carrier portion including; a first independently operable deployment element operable to deploy the annular inflow portion at an atrial side of a mitral valve annulus, such that the annular inflow portion is located within the first deployment element when radially constrained; a second independently operable deployment element operable to deploy the annular outflow portion at a ventricular side of a mitral valve annulus, such that the annular outflow portion is located within the second deployment element when radially constrained; and a sheath that is attached to and extends proximal to the first deployment element; a tubular member extending from the control handle and through the carrier portion, wherein the sheath of the carrier portion is configured to slide on the tubular member; a wire extending from the control handle to the second deployment element and slidably arranged within the tubular member; a locking member comprising a hub positioned on a distal end of the tubular member, the hub comprising a first end flange and a second end flange that are configured to maintain the annular outflow portion at a fixed axial position along the tubular member in order to prevent any undesired sliding movement of the annular outflow portion with respect to the second deployment element lengthwise of the carrier portion as long as the annular outflow portion is radially constrained by the second deployment element, wherein the first end flange is arranged proximal to the annular outflow portion and the second end flange is arranged distal to the annular outflow portion when the annular outflow portion is maintained at a fixed axial position by the locking member, and wherein the tubular member is connected to the first and second end flanges; and a delivery device adapted to provide a pathway from outside the patient'"'"'s body for delivery of the deployment instrument to the implantation site. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A system for implanting a mitral valve prosthesis in a patient'"'"'s heart, comprising, in combination,
an expandable, tissue, stented mitral valve prosthesis including an annular inflow portion and an annular outflow portion, and a valve delivery device for delivering the stented mitral valve prosthesis to a mitral valve annulus in the patient'"'"'s heart, the delivery device comprising: a deployment module for expanding the stented mitral valve prosthesis, the deployment module comprising; a control handle; a carrier portion for enclosing and carrying the mitral valve prosthesis, the carrier portion including; a first deployment element operable to deploy the annular inflow portion at an atrial side of a mitral valve annulus and configured to enclose the annular inflow portion when radially constrained, wherein the first deployment element is actuatable in an axial direction to allow the annular inflow portion to expand; a second deployment element operable to deploy the annular outflow portion at a ventricular side of a mitral valve annulus and configured to enclose the annular outflow portion when radially constrained, wherein the second deployment element is actuatable in an axial direction to allow the annular outflow portion to expand; and a sheath that is attached to and extends proximal to the first deployment element; a tubular member extending through the carrier portion, wherein the sheath of the carrier portion is configured to slide on the tubular member; a wire extending from the control handle to the second deployment element and slidably arranged within the tubular member; a locking member comprising a hub positioned on a distal end of the tubular member, the hub comprising a first end flange and a second end flange that are configured to maintain the annular outflow portion of the prosthesis at a fixed axial position when radially constrained; wherein each of the first and second deployment elements are independently operable, and wherein the locking member is configured to prevent any undesired sliding movement of the annular outflow portion with respect to the second deployment element lengthwise of the carrier portion as long as the annular outflow portion is radially constrained by the second deployment element wherein the first end flange is arranged proximal to the annular outflow portion and the second end flange is arranged distal to the annular outflow portion when the annular outflow portion is maintained at a fixed axial position by the locking member, and wherein the tubular member is connected to the first and second end flanges. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
Specification