An elongated medical assembly has a distal region configured to be positioned, at least in part, proximate to a biological feature of a patient. A puncture assembly is configured to be located proximate to the distal region. A selectively expandable-and-contractible assembly is located proximate to the distal region.

Shapeable guide catheters and methods for manufacturing and using such shapeable guide catheters. In one embodiment, the shapeable guide catheter comprises a tubular member having a shapeable region, a malleable shaping member attached to the shapeable region such that, when the shape of the shapeable region is changed from a first shape to a second shape, the shaping member will plastically deform to thereafter substantially hold the shapeable region in the second shape, a tubular outer jacket disposed about the outer surface of the tubular member and a tubular inner jacket disposed within the lumen of the tubular member. The shapeable region of the guide catheter may be manually formed into a desired shape before insertion of the guide catheter into the body. In some embodiments, the guide catheter is sized to be inserted through a nostril of a human patient and used to guide the transnasal insertion of another device (e.g., a guidewire, catheter, etc.) to a desired location within the nose, throat, ear or cranium of the subject.

A catheter system comprises an elongate catheter body including a distal end, a cannulation lumen extending through the catheter body and terminating at the distal end of the catheter body, and a steering element extending through the catheter body for steering the distal end. The catheter system also comprises an imaging element secured to a distal end portion of the catheter body and configured to obtain optical images of an area located distally of the distal end of the catheter body. The catheter body includes a ridge extending axially along an outer surface of the distal end portion, wherein a width of the ridge measured about a circumference of the catheter body is less than a length of the ridge measured along the longitudinal axis, and the imaging element is radially aligned with the ridge with at least a portion of the imaging element disposed within the ridge.

A portal saver assembly with a dermal fixation device that is removably attached to a length-adjustable portal saver. The portal saver assembly includes a tubular body having a rigid proximal end with threads and a proximal adjustment body having an outer ridge and an inner bore with threads. The threads on the rigid proximal end of the tubular body are configured to mate with the threads on the inner bore of the proximal adjustment body. The portal saver assembly also includes a dermal fixation device with a central bore and a locking mechanism around the central bore. The outer ridge of the proximal adjustment body is removably attached to within the central bore by the locking mechanism.

A retrievable puncture anchor includes a fixator with a cylindrical structure, a retrievable thread secured to one end of the fixator, and a push cable flexibly connected to a middle part of the fixator. Via the retrievable puncture anchor, tissues may be connected, fixed and matched with each other, or the tissues may be auxiliarily fixed, so that endoscopic surgery may be facilitated with simplified surgical process, and the puncture anchor may be retrieved after the surgery.

The present invention relates to devices and methods for separating tissues to create an anatomical access space in the body, in particular, for providing an access to the space between the pericardium and the epicardium.

An access device for accessing an intervertebral disc having an outer shield comprising an access shield with a larger diameter (˜16-30 mm) that reaches from the skin down to the facet line, with an inner shield having a second smaller diameter (˜5-12 mm) extending past the access shield and reaches down to the disc level. This combines the benefits of the direct visual microsurgical/mini open approaches and the percutaneous, “ultra-MIS” techniques.

Some of the present apparatuses include a flexible vascular graft defining a lumen and a hub having a distal end configured to penetrate a blood vessel, a proximal end, and a wall extending between the distal end and the proximal end that defines an interior passageway. In some apparatuses, the vascular graft is non-removably coupled to the hub, and the lumen of the vascular graft is in communication with the interior passageway of the hub. Some apparatuses include one or more helical protrusions fixed in relation to the wall and configured to secure the hub relative to the blood vessel, each of the one or more helical protrusions extending away from the interior passageway. In some apparatuses, the wall has an outer surface defining an annular recess that extends around the wall, the recess configured to receive at least a portion of a wall of the blood vessel.

A method of cannulating a coronary sinus within a heart chamber includes deploying, from a catheter, an imaging hood to a deployed configuration by extending the imaging hood from a distal end of the catheter and radially expanding the imaging hood to define a constant deployed volume within an open area of the imaging hood. The method further includes positioning a contact edge of the imaging hood and the open area of the imaging hood in the deployed configuration over or upon an ostium of the coronary sinus, displacing an opaque fluid with a transparent fluid from the open area defined by the imaging hood and tissue surrounding the ostium, visualizing the ostium through the transparent fluid by viewing the ostium via an imaging element attached to an inner surface of the imaging hood, and introducing a guidewire through the imaging hood and into the ostium while under visual guidance.

The present disclosure relates to devices used to access the pericardial space of the heart. In particular, the present disclosure describes an apparatus to enable an operator to access the pericardial space of the heart, and deliver cardiac therapies to the pericardial space, under direct visualization through a single, small incision.