Bifurcated endovascular prostheses used to treat diseased blood vessels, such as arteries, are disclosed. In some embodiments, the bifurcated endovascular prosthesis is configured to be implanted within the diseased blood vessels adjacent a diseased section. The bifurcated endovascular prosthesis includes a primary stent graft and a secondary stent graft. The primary stent graft includes a pocket or sleeve disposed within a bore. A proximal portion of the secondary stent graft is disposed within the pocket or sleeve. Blood flow through the bifurcated endovascular prosthesis is divided into two flows, a first flow through the primary stent graft and a second flow through the secondary stent graft.

A stent graft having an internal bidirectional branch formed from a tubular segment of graft material. The internal bidirectional branch extends within the lumen of the stent graft and proximally and distally from a lateral opening in the sidewall of the stent graft. The tubular segment from which the stent graft is made is partitioned into first and second sections along a length of the tubular segment to form the internal bidirectional branch. The lateral opening has a length and a width that may be greater than the diameter of the internal bidirectional branch and may be in the shape of a quadrilateral. The internal bidirectional branch and the stent graft are formed from a single piece of graft material.

An aortic root replacement device is movable between a deployed configuration and a retracted configuration. The device includes an intraventricular stent having a proximal portion and a distal portion, the intraventricular stent is flared from the proximal portion towards the distal portion such that when the device is deployed in the ventricle below the aortic valve it is held in position in the ventricle. The device also includes—an aortic valve unit and an aortic stent extending from the intraventricular stent. The intraventricular stent, the aortic valve unit and the aortic stent form a unitary assembly in retracted configuration and in deployed configuration, the aortic stent includes at least three means for connecting the device to the coronary arteries.

An aortic graft device (10) is provided with a graft portion (12) integrally fixed to a corrugated trunk portion (14). A fixing ring (16) is provided between the graft and trunk portions. The trunk portion (14) can be averted into the graft portion, leaving the fixing ring (16) at an extremity of the device for suturing purposes. The fixing ring (16) is preferably made from a relatively stiff material such as a compressed foam or rubber like material, which provides a relatively solid component for a surgeon to hold during suturing and which can provide a strong support for sutures.

The present application discloses a covered stent and a method for navigating the covered stent to a branch vessel, the covered stent including a main body and at least one lateral side branch connected to the main body. A system of covered stents and a method for implanting, including interconnecting the covered stents is also disclosed.

The present invention relates to an intraluminal vessel prosthesis system for implantation in the region of the aortic arch of a patient, comprising a hollow cylindrical main vessel prosthesis, wherein the hollow cylindrical main vessel prosthesis is configured and dimensioned for implantation in the region of the artic arch and the descending aorta (Aorta descendens) of the patient and wherein the main vessel prosthesis, at least over part of the length L2 of the anchoring vessel prosthesis, and wherein the diameter D2 of the anchoring vessel prosthesis is at least 45% smaller than the diameter D1 of the main vessel prosthesis and wherein the length L2 of the anchoring vessel prosthesis is shorter than the length L2 of the main vessel prosthesis.

An endoluminal valve (30) for controlling fluid flow during a surgical procedure is integrated into an access branch (24) of a tubular prosthetic device (10), the access branch (24) receiving a delivery system (100) including a shaft (110), a housing (112) with a depressible finger actuator (122) configured to contact a resilient wall surface (38) of inwardly tapering closure elements at the proximal end (32) of the endoluminal valve (30), wherein the proximal end (32) is secured within a lumen (26) of the access branch (24) and a distal end (36) of the endoluminal valve (30) located within the lumen (26) comprises self-sealing edges (42) coming together to form a flow-inhibiting seal.

A delivery system and method for implanting a stent graft includes a flexible sheath that defines loops distributed longitudinally and wherein substantial alignment of the loops along a longitudinal axis of a guidewire catheter radially constrict the flexible sheath. The flexible sheath defines longitudinal edges that at least partially form a seem when the openings are aligned, whereby, upon alignment, the flexible sheath defines at least one fenestration in the luminal configuration of the flexible sheath. A ligature extends through the openings of the flexible sheath and causes the openings to be substantially aligned, thereby constraining the flexible sheath. The ligature is proximally retractable from the openings to thereby release the flexible sheath from a radially constricted configuration.

An endovascular prosthesis includes a tubular body and a mobile external coupling. The tubular body includes a graft material and stents coupled thereto, and forms a lumen therethrough. The mobile external coupling includes a graft material, extends outwardly from the tubular body, and is generally frustoconically shaped. The mobile external coupling includes a base coupled to the tubular body, a top spaced from the tubular body, and a coupling lumen disposed between the base and the top that is in flow communication with the body lumen. An annular support wireform is coupled to the mobile external coupling, and is formed into a sinusoidal configuration having a plurality of opposing first crowns and second crowns, the first crowns of the support wireform extending around of the top of the mobile external coupling. The coupling graft material extending between the second crowns of the support wireform and the tubular body is unsupported.

The invention discloses a stent graft used for interventional treatment of abdominal aortic disease, comprising a tube body composed of a tubular covering and a plurality of annular stents, and the tube body comprises a first tube body and a second tube body that arranged in sequence from the proximal end to the distal end, wherein the diameter of the first tube body is greater than diameter of the second tube body; the first tube body and the second tube body are connected by a transition section as a whole; the diameter at central part of the transition section is smaller than the diameter of the proximal end of the transition section and the diameter of the distal end of the transition section; a plurality of fenestrations are disposed on the first tube body and the transition section. The invention provides a stent graft having a smaller diameter of the portion near the branch vessels or branch stents after released, and has more space for accommodating branch vessels or branch stents for interventional treatment of abdominal aortic diseases.