Disclosed are microcatheter devices with features that provide effective axial response, good distribution of bending forces, and a smooth bending stiffness profile that minimizes abrupt changes in stiffness. A catheter device includes a microfabricated inner shaft having a plurality of gaps, and an outer member comprising a polymer material disposed within the gaps. The catheter device provides non-linear bending stiffness such that bending becomes more difficult as the bend angle increases.

An intravascular access system for facilitation of intraluminal medical procedures within the neurovasculature through an access sheath. The system includes an aspiration or support catheter having a flexible, distal luminal portion having an inner diameter defining a lumen extending between a proximal opening at a proximal end of the luminal portion and a distal opening at a distal end of the luminal portion. The catheter has a rigid spine coupled to at least the proximal end of the luminal portion and extending proximally therefrom. The system includes a dilator having a flexible, distal dilator portion sized to be received within the lumen of the luminal portion. Associated systems, devices, and methods of use are also described.

In some examples, a catheter includes an elongated body comprising proximal and distal portions. The distal portion of the elongated body comprises an inner liner that includes a proximal liner section and a distal liner section that include different materials, and an outer jacket positioned over the inner liner. The distal liner section has a first hardness and the proximal liner section has a second hardness, where the first hardness is less than the second hardness.

A deployable tube apparatus may include a spool and a flexible sheet coiled about the spool in a laterally unfurled condition. The flexible sheet may have a first lateral margin and a second lateral margin, and may be deployable from the laterally unfurled condition with the first and the second lateral margins spaced from each other to a deployed tubular condition where the first and the second lateral margins are coupled to each other to form an enclosed lumen. The deployable tube apparatus may provide lateral support to an elongated flexible instrument, such as a catheter. Methods of creating and using the deployable tube apparatus are described.

The present disclosure relates to a braid for treating an aneurysm. The braid can include a proximal expandable portion for positioning inside the aneurysm and sealing across a neck of the aneurysm. The braid can also include a distal expandable portion distal of the proximal expandable portion, the distal expandable portion for filling the aneurysm.

A thrombus engagement tool having a flexible shaft, a clot engagement tip, and a handle. The engagement tip may include one or more radially outwardly extending structures such as a helical thread. The helical thread can be advanced through a catheter to engage a clot. The handle may be configured to be rotated by hand. When the handle is rotated, the helical thread of the engagement tip can rotate in the same direction thereby allowing the helical threat to engage the clot. The helical thread can wrap around the flexible shaft at least about one, two, or four or more full revolutions, but in some cases no more than about ten or no more than about six revolutions.

The subject guide catheter extension system with a micro-catheter delivery catheter includes an outer sheath, an inner member extending within the sheath, and a mechanism for engagement/disengagement of the inner member to/from the sheath. Several mechanisms of engagement/disengagement between the inner and outer members are provided including a friction mechanism, threaded mechanism, pull away sheath, and engagement/disengagement mechanism for pusher's handles. The sheath and the inner member are modified for different engagement/disengagement mechanisms operation. A micro-catheter delivery system provides for an improved atraumatic crossability to the treatment site in an expedited and simplified fashion. During a procedure, a guidewire along with a guide catheter are advanced to the vicinity of the treatment site within a blood vessel. Subsequent thereto, the subject guide catheter extension system is manipulated to advance the micro-catheter along the guidewire inside the guide catheter towards and beyond the site of interest. Once the micro-catheter is in place, the outer sheath slides along the micro-catheter until reaching the lesion, and then the inner member is removed from the sheath, and the sheath then is ready for passing the treatment catheter (stent/balloon) towards the lesion to be treated.

A catheter including an inner liner, a reinforcement layer disposed about the inner liner and having a distal edge separated a predetermined axial distance in a proximal direction from the distal end of the inner liner. The reinforcement layer having a discrete annealed section with an altered crystalline structure having modified (e.g., increased) stiffness relative to non-annealed sections of the reinforcement layer. A marker band is positioned over or adjacent to the distal edge of the reinforcement layer. An outer jacket is disposed about an interim assembled structure including the inner liner, the reinforcement layer, and the marker band to form an assembled structure. During manufacture, heat is applied to reflow together individual components of the assembled structure producing an integral composite catheter shaft.

A pressure relief device for use in a percutaneous procedure, the device comprising a tube having a distal opening into an internal lumen and a proximal opening from the internal lumen, a length of the tube sized to position the distal opening near a closed arteriotomy in a vessel and the proximal opening remains external to a patient’s skin. Related devices, kits, and methods are provided.

The present disclosure provides a catheter including a plurality of a segments, each segment having a stiffener extending along its length. The plurality of segments are interconnected with connectors such that each of the segments can bend in multiple planes via rotation of the connectors.