Expandable medical implant and percutaneous delivery

Prosthesis (i.e. – artificial body members) – parts thereof – or ai – Heart valve – Annuloplasty device

Reexamination Certificate

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C623S002380

Reexamination Certificate

active

06805711

ABSTRACT:

FIELD OF THE INVENTION
The present invention generally relates to improved medical devices and their use. More particularly, the present invention relates to a medical implant having an annular ring and its percutaneous delivery means that is expandable for correction of certain disorders in the heart valves, blood vessel valves or other valvular body conduits in a patient.
BACKGROUND OF THE INVENTION
The human's circulatory system consists of a heart and many blood vessels. In its path through the heart, the blood encounters four valves. The valve on the right side that separates a right atrium from a right ventricle has three cusps and is called the tricuspid valve. It closes when the ventricle contracts during a phase known as systole and it opens when the ventricle relaxes, a phase known as diastole. The pulmonary valve separates the right ventricle from a pulmonary artery. The mitral valve, so named because of its resemblance to a bishop's mitre, is in the left ventricle and it separates the left atrium from the ventricle. The fourth valve is the aortic valve that separates the left ventricle from the aorta. In a venous circulatory system, a venous valve is to prevent the venous blood from leaking back into the upstream side so that the venous blood can return to the heart and consequently the lungs for blood oxygenating and waste removing purposes.
In many patients who suffer from diseased or congenitally dysfunctional cardiovascular tissues, a medical implant may be used to correct the problems. A dysfunctional heart valve hinders the normal functioning of the atrioventricular orifices and operation of the heart. More specifically, defects such as narrowing of the valve stenosis or a defective closing of a valve, referred to as valvular insufficiency, result in accumulation of blood in a heart cavity or regurgitation of blood past the valve. If uncorrected, prolonged valvular insufficiency may cause eventually total valve replacement. On the other hand, certain diseases cause the dilation of the heat valve annulus. Dilation may also cause deformation of the valve geometry or shape displacing one or more of the valve cusps from the center of the valve. Dilation and/or deformation result in an ineffective closure of the valve during ventricular contraction, which results in regurgitation or leakage of blood during contraction.
It is known to use annuloplasty ring in the repair of diseased or damaged atrioventricular valves that do not require replacement. The annuloplasty ring is designed to support the functional changes that occur during the cardiac cycle: maintaining coaptation and valve integrity in systole while permitting good hemodynamics in diastole. The annuloplasty ring also provides support for the mitral or tricuspid annulus and restricts expansion of the annulus or portions of the annulus to preset limits.
A variety of annuloplasty rings have been employed, ranging from rigid rings of fixed sizes to flexible rings with a degree of adjustability. Obviously, annular prostheses that are of rigid fixed size must be carefully selected and skillfully sutured in place. Thus, an imperfect fit may require corrective surgery to replace the improperly implanted prosthesis. A rigid ring also prevents the normal flexibility of the valve annulus and has a tendency of sutures tearing during the normal movement of the valve annulus. Examples of rigid or partially rigid annuloplasty rings are disclosed in U.S. Pat. No. 5,061,277 (to Carpentier et al.) and in U.S. Pat. No. 5,104,407 (to Lam et al.).
Over the years flexible annuloplasty rings are designed and developed to overcome the problems of rigid rings and/or fixed size. One problem associated with the fixed size annuloplasty rings of the prior art is that, when such annuloplasty rings are implanted into children, the subsequent growth of the patient may render the annuloplasty ring too small for its intended function. Thus, a follow-up surgery may be necessary to replace the originally implanted annuloplasty ring with a larger ring suitable for the then-current size of the patient.
Another disadvantage of a fixed size, rigid annuloplasty ring is its bulkiness that requires an open-heart surgery for implantation. It is desirable to devise a retractable/expandable annuloplasty ring or annular ring having uni-flow means for allowing one-direction flow that is implantable via a minimally invasive manner, such as percutaneous procedures. Percutaneous aortic valve replacement reduces surgical trauma and hospital stay. For example, Boudjemline et al. (Circulation 2002;105:775-778) reports “steps toward percutaneous aortic valve replacement” and Lutter et al. (J Thorac Cardiovasc Surg 2002;123:768-76) reports “Percutaneous aortic valve replacement: An experimental study”. It is one aspect of the present invention to provide an expandable annular ring with a uni-flow mechanism that has tissue-anchoring capability.
Carpentier et al., in U.S. Pat. No. 5,593,435 and No. 5,888,240 describes an annuloplasty ring which is constructed and equipped for post-implantation size adjustment in situ to accommodate changes in annular size due to growth of the patient. It is disclosed that a distensible annuloplasty ring may be made up of a plurality of separate segments which are slidably or movably secured to one another to form a ring. It is also disclosed that when dilatory or outward pressure is exerted against the inner surface of the ring, as may be accomplished by way of a radially expandable balloon introduced within the annulus of the remodeled valve, such pressure will cause the segments to slide or distend relative to one another. However, such mechanical sliding or distension of the segments expands the circumference of the ring by an incremental increase at only a few joint points where any two slidable segments meet. By distending an incremental strain and simultaneously loading most of the distension stress at a few joint points, the overall shape of the annulus may be distorted. Furthermore, the intended valve functionality with that unevenly distended annuloplasty ring after a period of tissue ingrowths into and/or encapsulation onto the annuloplasty ring may be compromised.
The disadvantages of the above-cited patents restrict the medical implants from retractable/expandable capability tailoring for percutaneous insertion by a minimally invasive manner.
Cardiovascular stents have been developed and used widely. A stent is a generally longitudinal tubular mesh-like device formed of biocompatible material, preferably a metallic or a plastic material, which is useful in the treatment of stenosis, strictures or aneurysms in body conduits such as blood vessels or around a valvular annulus. When a stent is expanded and enlarged, the whole section is expanded at essentially the same degree of extension. Special features of the stent configuration may include radially expandable non-axial contraction and/or spirals as disclosed in U.S. Pat. No. 6,042,606 (to Frantzen) and No. 6,033,433 (to Ehr et al.).
Balloon-assisted radial expansion for an expandable annuloplasty ring might restrict the blood flow undesirably. Radial mechanical force as disclosed in the prior art to expand an annuloplasty ring at a later time might not evenly expand the ring radially.
Shape-memory material has been disclosed and widely used that it will return to its preshape when it is activated by energy or other suitable means. The shape-memory material may include plastic material, metal, and the like. For example, U.S. Pat. No. 5,163,952 (to Froix) discloses shape-memory plastic. The entire contents of these patents are incorporated herein by reference.
Particularly, U.S. Pat. No. 6,077,298 issued to one co-inventor of the present invention, contents of which are incorporated herein by reference in its entirety, discloses a retractable/expandable stent and methods thereof using shape-memory metallic material.
Therefore, it would be desirable to provide an expandable annular ring, preferably with a uni-flow means configured for allowing one-direction

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