Abstract: An anchoring device (1) designed for anchoring a prosthetic heart valve inside a heart, includes an extraventricular part (2) designed to be positioned inside an atrium or an artery and a ventricular part (3) designed to be positioned inside a ventricle, wherein the ventricular part includes a double wall composed of an outer wall (4) and an inner wall (5) spaced apart at the level where the prosthetic heart valve is intended to be inserted, and wherein the anchoring device further includes a predefined V-shaped groove (8) formed between the extraventricular part (2) and the ventricular part (3). The present invention also relates to an anchoring system (11) for anchoring a prosthetic heart valve inside a heart, including the anchoring device (1), a prosthetic heart valve support (12) and a prosthetic heart valve (13) connected to the prosthetic heart valve support (12).

Abstract: A method of treating a vertebra, comprising: (a) accessing an interior of a vertebra; and (b) introducing a sufficient amount of artificial biocompatible material which does not set to a hardened condition in storage, into said bone, with sufficient force to move apart fractured portions of said bone.

Abstract: Modular IOL systems including a base and a lens, wherein the lens includes tabs for connection to the base. The modular IOL allows for the lens to be adjusted or exchanged while leaving the base in place, either intra-operatively or post-operatively.

Abstract: The present disclosure relates to devices, systems, and methods for improving or optimizing peripheral vision. In particular, methods are disclosed which include utilizing particular characteristics of the retina in improving or optimizing peripheral vision. Additionally, various IOL designs, as well as IOL implantation locations, are disclosed which improve or optimize peripheral vision.

Abstract: Intraocular implants and methods of making intraocular implants are provided. The intraocular implant can include a lens body having a lens material and a mask having a mask material. The lens body can be secured to the mask. The mask material can include a modulus of elasticity that is greater than or equal to a modulus of elasticity of the lens material.

Abstract: Prosthetic capsular devices (e.g., bag, bowl, housing, structure, cage, frame) include technology devices such as a computer, virtual reality device, display device, WiFi/internet access device, image receiving device, biometric sensor device, game device, image viewers or senders, GPSs, e-mail devices, combinations thereof, and/or the like. The technology devices can be used in combination with an intraocular lens. The output from the technology device(s) can be fed to the retina of the user to provide a visual image, can be otherwise connected to the user, and/or can be used to control the properties of the intraocular lens or of the prosthetic capsular device.

Abstract: Heart valve prostheses are provided having a self-expanding frame that supports a valve body comprising a skirt and a plurality of coapting leaflets. The self-expanding frame includes an inflow section, a valve section, and an outflow section. The outflow section forms attachment loops in a collapsed configuration to attach the frame to a delivery system.

Abstract: Implantation assemblies for an iris-expanding device comprising an iris-expanding device holder and a holder body, as well as iris-expanding device holders are provided. These assemblies and devices are configured for an iris-expanding device that can maintain a pupil in an extended position during an ophthalmic procedure such as phacoemulsification.

Abstract: Methods of implanting an iris-expanding medical device in an eye. The methods can use an inserter which includes an inserter handle and a cannula attached to the inserter handle. Once inserted, the iris-expending medical device can maintain a pupil in an extended position during an ophthalmic procedure such as phacoemulsification.

Abstract: Described is a transcatheter mitral valve. The mitral valve includes a saddle-shaped annulus frame with two prongs extending therefrom. Two leaflets are attached with the frame and prongs to form a bi-leaflet mitral valve. The frame is collapsible to a collapsed configuration that allows for delivery and implantation at a mitral position. When at the mitral position, the mitral valve expands into an open configuration and is secured in place by a fixture, such as clamps that extend from the frame.

Abstract: In a method for treating an aortic arch disease, after an intraoperative stent is expanded in an aorta and at least one arch branch vessel, and before the vessel is exactly anastomosed with an incision, by blocking a thoracic aorta between the incision and an arch branch vessel closest to the incision, the intraoperative stent in the thoracic aorta is also blocked, so that blood is prevented from flowing from the incision, and a proximal orifice of the intraoperative stent, and the low body perfusion may be recovered in advance, thereby reducing the circulatory arrest time of the low body perfusion and reducing the time of ischemia of visceral organs and lower limbs of a patient. Meanwhile, the flow of a cerebral perfusion through the right axillary artery may be recovered to a normal flow in advance, and the time of ischemia of the brain of the patient is reduced.

Abstract: An endovascular apparatus is provided for treating the effects of vascular disease including aneurysms and arterial blockages using a percutaneous, minimally invasive technique. In one embodiment the endovascular apparatus includes a tubular sleeve having a cranial end, a first caudal branch, and a second caudal branch such that the tubular sleeve is shaped like an upside down “Y.” The apparatus further includes at least one expandable attachment device attached to the tubular sleeve for securing the endovascular apparatus to an interior wall of a vessel. The at least one expandable attachment device includes a plurality of telescoping segments similar to the telescoping segments of a presentation pointer. Accordingly, during percutaneous insertion of the endovascular apparatus into a patient the attachment device can be collapsed into a small profile.

Abstract: Generally, an intraocular implant and methods for treating an ocular condition. In particular, an intraocular implant which implanted between an intraocular lens and the surface of the posterior capsule of the eye inhibits migration of residual lens epithelial cells after cataract surgery by providing structural barriers to reduce posterior capsule opacification of the eye.

Abstract: Generally, an intraocular implant having on the external surface a plurality of pattern surface elements disposed in spaced apart relation defining a tortuous pathway adapted to control a flow of fluid, or a flow of particles suspended in a fluid, or inhibits the growth or migration of cells. In particular, an intraocular implant which implanted between an intraocular lens and the surface of the posterior capsule of the eye inhibits growth or migration of residual lens epithelial cells after cataract surgery by providing structural barriers to reduce posterior capsule opacification of the eye.

Abstract: A method of corneal lenslet implantation with a cross-linked cornea is disclosed herein.

Abstract: An optical accommodating system for an eye includes a sensor assembly and an adjustable optic assembly. The sensor assembly includes a sensor configured to sense a movement of the ciliary muscle and produce a signal, an electronic processor, a transmitter and a power source. The adjustable optic assembly is configured to be either implanted within or on the eye, or configured to be disposed adjacent to or near the eye. The adjustable optic assembly includes a switchable optical lens assembly configured to change its optical power between a first state and a second state, a receiver configured to receive the transferable signal from the transmitter of the sensor assembly, a second electronic processor connected to the receiver which directs the switchable optical lens assembly to change its optical power between the first state and second state, and a second power source connected to the second electronic processor.

Abstract: The present embodiments provide an endoluminal prosthesis, comprising a prosthetic trunk and a prosthetic branch, each comprising proximal and distal ends and a lumen extending therebetween. The proximal end of the prosthetic branch is secured around an aperture formed in a side surface of the prosthetic trunk. A support structure is coupled to the prosthetic branch. In certain embodiments, a proximal end of the support structure comprises a first width, and a distal end of the support structure comprises a second width, wherein the first width is less than the second width.

Abstract: Described herein are intraocular lenses and methods of implantation. In one aspect, the lens includes a shape changing optical element; a force translation element having a first end region coupled to the optical element and a second end region extending towards a ciliary structure, and an attachment portion coupled to the second end region of the force translation element and configured to contact the ciliary structure. The force translation element is configured to functionally transmit movements of the ciliary structure into a force exerted upon the optical element to effect an accommodating and a disaccommodating change of the optical element.

Abstract: A tibial augment for use with a knee joint prosthesis, composed of annular members of different stock sizes, each size being configured to fit within a cavity formed in a human tibia. The augment may include a stepped distal surface. A provisional (temporary) tibial augment used to ensure a proper fit for the permanent augment is also provided. The provisional may include grooves configured to cooperate with a set of ribs on a tong-like holder used for removing the provisional from the cavity. A pusher for use implanting the tibial augment is also provided. In addition, a system for creating a cavity in a human tibia is also described. The system preferably includes a guide with a slot therein and a set of osteotomes that are inserted within different portions of the slot.

Abstract: The invention relates to a multi-lens intraocular lens system having an accommodation material between the lenses. The system comprises an posterior lens attached to the posterior surface of the capsular bag and an anterior lens attached to the anterior surface of the capsular bag. The anterior and posterior lenses have different optical properties providing different degrees and types of correction. An accommodation material is placed between the anterior and posterior lenses. The accommodation material may comprise of one or more macromers, which, when polymerized, adjust the properties of the accommodation material.