Abstract: Intraocular implants and delivery instruments are disclosed for treating ophthalmic conditions and ocular disorders, such as glaucoma. The implants are configured to extend between the anterior chamber of the eye and a fluid outflow path or physiologic outflow pathway, such as Schlemm's canal, of the eye for enhancing outflow of aqueous from the anterior chamber so as to reduce intraocular pressure. The implants can have features for anchoring the implant into the physiologic outflow pathway as well as preventing the walls of the physiologic outflow pathway from closing the outlet of the implants. The delivery instruments can be steerable so as to make implantation easier. Additionally, the delivery instruments can be configured to hold a plurality of implants so that multiple implants can be implanted through one incision without removing the delivery instrument from the incision between serial implantations.

Abstract: Disclosed are nozzles and nozzle assemblies of liquid jet-forming surgical instruments, surgical instruments employing such nozzles and/or nozzle assemblies, and methods of fabricating the nozzle assemblies in forming surgical instruments. Also, disclosed are liquid jet-forming surgical instruments including both liquid jet-forming nozzles and optional evacuation lumens, which when provided can be configured to receive the liquid jet and evacuate the liquid forming the liquid jet. Certain embodiments of such surgical instruments include inventive nozzle alignment component(s) to facilitate alignment of the nozzles and evacuation lumen upon assembly. In certain embodiments, surgical instruments are provided that include a nozzle that is shaped to form a liquid jet, which has surfaces that are optically smooth.

Abstract: An aortic graft assembly includes a tubular component that defines a wall aperture having a proximal end that extends perpendicular to a major longitudinal axis of the tubular aortic component, and a tunnel graft connected to the wall of the tubular aortic component and extending from the wall aperture toward a proximal end of the tubular aortic component. The method for delivery of the aortic graft assembly includes delivering the aortic graft assembly through the wall aperture and into interferring relation with the tunnel graft.

Abstract: Surgical instruments are disclosed that are couplable to or have an end effector or a disposable loading unit with an end effector, and at least one micro-electromechanical system (MEMS) device operatively connected to the surgical instrument for at least one of sensing a condition, measuring a parameter and controlling the condition and/or parameter.

Abstract: Space-occupying devices for treating voids within the body are disclosed. The devices can have multiple elements connected to a flexible leader. The devices can be coated by a binding agent. The devices can also be fillable. Methods of making and using the devices are also disclosed.

Abstract: The present invention discloses a medical assembly including an implant, a first sleeve, a second sleeve and an elongate member. The implant has a first portion, a second portion and a mid portion. The first portion of the implant is configured to be enclosed by the first sleeve and the second portion of the implant is configured to be enclosed by the second sleeve. The elongate member is configured to couple the implant with the first sleeve and the second sleeve and is configured to respectively extend from the first portion to the mid portion of the implant and past the mid portion such that the elongate member exits the implant through the mid portion and forms a loop near the mid portion.

Abstract: A variable curvature catheter (4) with a strong capacity to maintain the desired curvature comprising a catheter body (8) which extends from a proximal end (12) to a distal end (16), provided with a side wall (20) which defines at least one cavity (24); the catheter body (8) comprises, at said distal end (16), a variable curvature section (28) which ends in a tip (32). Inside the cavity (24) at least one traction wire (36) is housed having an ascending branch (40), which extends from the proximal end (12) towards the distal end (16) so as to at least partially go through the variable curvature section (28) at least as far as a first fork (44).

Abstract: An endoscopic surgical clip applier is provided, wherein a distal end of the surgical clip applier is introduced to a target surgical site through a cannula having a fixed diameter lumen. The surgical clip applier comprises an endoscopic portion supported by and extending from a handle assembly, and a pair of jaws supported at a distal end of an outer tube, wherein the pair of jaws are movable between a fully open condition and approximated conditions. When the pair of jaws are in the fully open condition the pair of jaws extend radially beyond an outer diameter of the outer tube to a dimension greater than the fixed diameter of the lumen of the cannula; and when the pair of jaws are in at least one approximated condition the pair of jaws have a transverse dimension permitting passage through the lumen of the cannula.

Abstract: An intracorporeal space filling device and a delivery system and method for using the device is disclosed. The space filling device is preferably configured for percutaneous delivery from a peripheral conduit of a patient. The space filling device has an elongated tubular or interconnected bead structure which may have a transmutable material disposed within it. The transmutable material can be altered from a non-rigid state to a rigid state by the application of various types of energy or by other suitable means. The space filling device can be positioned by a delivery system and detached from the delivery system after desired positioning is achieved.

Abstract: A hemostatic device includes an injection tube having at least one distal tube opening configured to discharge a first fluid to facilitate sealing the puncture. A guide is adjacent a distal end of the injection tube. The guide includes a cone-shaped portion having an apex oriented towards a distal end of the hemostatic device.

Abstract: The present invention provides, in one embodiment, a vascular filter device for capturing dislodged blood clots within a vessel. The vascular filter device includes an expandable framework for securing the device within a vessel. The device also includes a pathway extending through the framework. The device further includes at least one filter in alignment with the pathway for capturing dislodged clots or emboli. In an embodiment, the filter can be given form by a material that can be easily eliminated in situ to permit reestablishment of the pathway.

Abstract: A device for moving an elongate member relative to an elongate body through which it extends, the device including a housing, a mover, and a pre-mover. The housing is connectable to the elongate body. The mover is associated with the housing and is connectable to the elongate member for moving the elongate member relative to the housing. The pre-mover is associated with the housing and is connectable to the elongate member for adjusting the elongate member in preparation for moving the elongate member with the mover.

Abstract: The present invention provides for implant device delivery apparatuses and related methods of use. The delivery systems of the present invention incorporate a stretch resistant tube that advantageously makes the implant device, such as an embolic coil, stretch resistant while a delivery system is being used to position the implant device at a desired target site.

Abstract: A patient's stomach may be secured to the patient's diaphragm. A method to accomplish this includes visualizing a wall of a patient's stomach adjacent the patient's diaphragm from within the patient's stomach, inserting a fastener deployment apparatus down the patient's esophagus and into the mammalian's stomach, and fastening the patient's stomach to the patient's diaphragm with the fastener deployment apparatus and from within the stomach. The procedure may be employed to advantage to treat a hiatal hernia, for example, either alone or in conjunction with the restoration of the patient's gastroesophageal flap valve.

Abstract: Inflatable multi-chambered devices are provided for repairing or replacing spinal discs and distracting neighboring vertebral elements. Also included are cushioning devices that may be used in a joint replacement device cushioning system. Further included are kits and systems that include such devices, methods for making such devices, and methods of treating patients in need of such devices. Examples further include cosmetic augmentation and restoration devices.

Abstract: A submucosal layer dissection instrument of the present invention includes an instrument body that is inserted into a submucosal layer, a line formed between the proximal end side and the distal end side of the instrument body; and an expanding section provided on the distal end side of the instrument body that expands in the case of having received a supply of fluid through the line.

Abstract: A method of endoscopically removing tissue including providing a surgical cutting instrument including a first elongated member having a cutting tip, a second tubular member forming a cutting window, and a handpiece. The first elongated member is co-axially disposed within the second tubular member such that the cutting tip is exposed at the cutting window and combines to define a cutting implement. The first and second members are coupled to the handpiece. The method includes grasping the handpiece, deploying the instrument such that the cutting implement is adjacent a target site with the cutting window positioned at a first spatial orientation relative to the handpiece, rotating the cutting window relative to the handpiece such that the cutting window is positioned at a second spatial orientation, and moving the first elongated member relative to the second tubular member such that the cutting tip removes tissue from the target site.

Abstract: In one embodiment, the present invention include a method of securing tissue using a filamentary construct, the method including the steps of passing a length of filament through or around tissue; implanting a filamentary sleeve, formed of filament, into tissue; and passing at least a portion of the length of filament at least partially through the filamentary sleeve to form a one-way cleat. The present invention also provides for various devices, systems, assemblies, kits and methods of use, assembly and manufacture thereof.

Abstract: A catheter having a distal balloon and a deformable guidewire shaft of the catheter. The deformable guidewire shaft is adjacent to and external to the balloon. Inflation of the balloon bends the deformable guidewire shaft in order to orient or deflect a distal tip of the deformable guidewire shaft in a desired direction to guide and direct a guidewire extending through the deformable guidewire shaft towards a specific endovascular region. For example, it may be desired to orient the distal tip of the guidewire shaft towards a target vessel of a bifurcation or the balloon catheter may be used to bypass a Chronic Total Occlusion (CTO).

Abstract: A delivery system for delivering an implantable stented device to a lumen of a patient, the delivery system including an elongated body having a proximal end and a distal end, a driver mechanism positioned at the proximal end of the elongated body, an elongated threaded rod located axially distal to the driver mechanism, and a sheath including an elongated tubular portion having a hollow interior portion with a first diameter that is sized for compression and retention of the implantable stented device in a compressed configuration for delivery to a body lumen.