In some examples, a medical assembly includes a catheter and a delivery-assist tool. The catheter includes an elongated body comprising a proximal body portion and a distal body portion and defining a body inner lumen; and an expandable member located at the distal body portion, the expandable member defining an expandable member inner lumen. The delivery-assist tool includes a support structure configured to extend through the body inner lumen and the expandable member inner lumen of the catheter; and a flexible cover coupled to a distal portion of the support structure, wherein the flexible cover is configured to facilitate compression and retention of the expandable member in a delivery configuration while being advanced through a delivery sheath and while the support structure extends through the body inner lumen and the expandable member inner lumen.

A system for delivering a vascular implant into a body lumen including a vascular implant having a first engagement portion at a proximal portion and an elongated delivery member having a second engagement portion at a distal portion releasably engageable with the first engagement portion. An elongated member extends through the delivery member wherein in the extended position the elongated member extends into at least a portion of the implant to prevent release of the implant from the delivery member and in the retracted position the elongated member enables release of the implant from the delivery member.

An embolization device (10) for promoting clot formation in a bodily lumen and having a contracted delivery configuration and an expanded deployed configuration. The embolization device (10) has a stem (30) and a plurality of flexible bristles (20) extending radially outwardly from the stem (30), the stem (30) comprising: a first wire element (31); a second wire element (32); a tubular interconnect (33) having a lumen and connecting the first wire element (31) to the second wire element (32), the first wire element (31) and the second wire element (32) being disposed within the lumen of the tubular interconnect (33); and a reinforcing sleeve (50) being fixedly disposed over at least part of the tubular interconnect (33) and fixedly disposed over at least part of one or both of the first wire element (31) and the second wire element (32). The reinforcing sleeve (50) has a lower stiffness than the tubular interconnect (33).

The techniques of this disclosure generally relate to a method including navigating an adhesive catheter to a proximal end of a false lumen of a dissection. The false lumen is defined by a septum and a vessel wall. The method further includes delivering an adhesive from the adhesive catheter to the proximal end of the false lumen. The adhesive is compressed between the septum and the vessel wall to close the false lumen.

Disclosed are implantable medical devices for the occlusion of a bodily lumen, cavity, vessel, or organ, as well as methods for manufacturing such occlusion devices, and methods for treating a subject using the occlusion devices. The devices generally include a wire having shape memory properties and a flexible membranous material disposed about the wire. Some embodiments include a lateral fringe on the membranous material. Some embodiments include a fluid capture cup affixed to the wire.

There is provided a laminate membrane for an implant, comprising: an inner layer having an inner layer thickness; a first covering layer disposed on one side of the inner layer, the first covering layer having a first covering layer thickness; and a second covering layer disposed on another side of the inner layer, the second covering layer having a second covering layer thickness.

A device for occluding a patient's left atrial appendage (LAA) device includes a self-expanding closure disc and an anchor. The self-expanding closure disc has an atrial side, an appendage side, and a peripheral edge configured to engage tissue on both an atrial side and an appendage side of an opening between the left atrium and the left atrial appendage. The self-expanding anchor extends from the appendage side of the self-expanding closure disc, and an annular sealing skirt extends about at least a portion of the appendage side of the self-expanding closure disc. the annular sealing skirt is more compliant than the self-expanding closure disc to seal over the left appendage side of the opening after implantation of the device in the LAA.

Vaso-occlusive apparatuses, including implants, and methods of using them to treat aneurysms. For example, described herein are expandable vaso-occlusive implants that include one or more soft and expandable braided member coupled to a pushable member such as a coil that maybe inserted and retrieved from within an aneurism using a delivery catheter. In particular, the expandable implants described herein are configured to allow relatively soft and elongate implants to be pushed out of a cannula without binding up within the cannula.

Temporary vascular occlusion devices and methods for use thereof are described which provide temporary vascular occlusion while maintaining distal perfusion along with vascular access. The temporary vascular occlusion device may include a multiple layer scaffold covering having proximal and distal attachment zones separated by an unattached scaffold covering zone where the scaffold covering is adjacent to but not attached directly to the scaffold frame. Devices for a vascular procedure may access the vasculature using a guide catheter in the shaft of the occlusion device. The occlusion device may then be used to provide protection from contrast media used during the vascular procedure conducted using the access provided by the occlusion device.

A device for occluding a vasculature of a patient including a micrograft having an absorbent polymeric structure with a lumen of transporting blood. The micrograft has a series of peaks and valleys formed by crimping. The occluding device is sufficiently small and flexible to be tracked on a guidewire and/or pushed through a microcatheter to a site within the vasculature of the patient. Delivery systems for delivering the micrografts are also disclosed.