A double lumen catheter includes: a circumferential wall 101 forming a lumen extending from a proximal end to a distal end; and a partition 102 dividing the lumen into a first passage 110 and a second passage 120 extending in a longitudinal direction. Distal ends of the first passage 110 and the second passage 120 of the circumferential wall 101 are aligned with each other. The partition 102 includes a projection 103 projecting beyond the distal end of the circumferential wall 101, and having a U-shaped plane. The first passage 110 has, at the distal end, a first passage slit 111 formed by cutting out a part of the circumferential wall 101 around a circumferential center of the circumferential wall 101.

A catheter that has a catheter tube everting inside-out during the process of catheterization. The catheter tube has a plurality of longitudinal protrusions extending from the first end of the catheter tube through at least a portion of the catheter tube, and forming an angle of 0 degrees to 45 degrees with respect to the longitudinal axis of the catheter tube and facing radially inwards, and provides for dilating a circumference of the catheter tube upon everting the catheter tube inside-out from the first end of the catheter tube.

Vascular access devices and methods of their use are provided. In one embodiment, a vascular access device includes a catheter (112) and at least one deployable wire (134). The catheter includes a primary lumen extending from a proximal end to a distal end of the catheter. The at least one deployable wire is secured to the catheter and configured to move relative to the catheter between a delivery configuration and a deployed configuration.

In some examples, a tool for, e.g., creating a sub-sternal tunnel in a patient or other use, is described. The tool may include a handle and a tunneling shaft coupled to the handle. The tunneling shaft extends from a proximal end to a distal end, and at least a portion of the tunneling shaft extends in a curved orientation between the first end to the distal end. The distal end of the tunneling shaft includes a cutting tool having a sharp edge. The cutting tool is moveable from a recessed position in which the sharp edge of the cutting tool is recessed into the distal end of the tunneling shaft to a deployed position in which the sharp edge of the cutting tool extends beyond the distal end of the tunneling shaft in the deployed position, e.g., to cut pericardium, scar tissue, and/or connective tissue with the sharp edge.

Methods and tool kits for implanting a lead subcutaneously. Examples include tool kits and methods for establishing first and second subcutaneous tunnels at an angle relative to one another to facilitate introduction of a lead to the subcutaneous space. In an example, a tunneling tool and lead assembly are advanced simultaneously into the subcutaneous space. The tunneling tool may include a curved region configured to transition the tool from the first subcutaneous tunnel to the second subcutaneous tunnel with the use of a single incision.

In some examples, a tool for, e.g., creating a sub-sternal tunnel in a patient or other use, is described. The tool may include a handle and a tunneling shaft coupled to the handle. The tunneling shaft extends from a proximal end to a distal end, and at least a portion of the tunneling shaft extends in a curved orientation between the first end to the distal end. The distal end of the tunneling shaft includes a cutting tool having a sharp edge. The cutting tool is moveable from a recessed position in which the sharp edge of the cutting tool is recessed into the distal end of the tunneling shaft to a deployed position in which the sharp edge of the cutting tool extends beyond the distal end of the tunneling shaft in the deployed position, e.g., to cut pericardium, scar tissue, and/or connective tissue with the sharp edge.

Disclosed are methods and systems for restoring patency across a vascular or non-vascular occlusion. The system may include a retrograde catheter, having a proximal end, a distal end, a first central lumen and a first side port spaced proximally apart from the distal end, the first central lumen extending at least as far as the first side port. An antegrade catheter is also provided, having a proximal end, a distal end, a second central lumen in communication with a second side port spaced proximally apart from the distal end. The catheters may have complementary surface configurations to facilitate alignment of the first and second side ports, so that a wire may be passed out of one of the side ports and into the other side port.

Disclosed are methods and devices for restoring patency across a vascular or non-vascular occlusion. A first catheter having a first side port is configured to advance in a first direction through a vessel from a vascular access site on a first side of the occlusion. A second catheter having a second side port is configured to advance in a second direction through the vessel from a vascular access site on a second side of the occlusion. The catheters may have complementary surface configurations to facilitate alignment of the first and second side ports, so that a wire may be passed through the catheters, out of one of the side ports and into the other side port, to bypass the occlusion.

A split-tip catheter for placement within the vasculature of a patient and for use in hemodialysis or other suitable procedures, and methods of use. The split-tip catheter can include a catheter body defining a first lumen and a second lumen, and a split distal region extending from a distal end of the catheter body. The split distal region can include an arterial segment defined by an outer wall enclosing an arterial segment lumen, the arterial segment lumen in fluid communication with the catheter body first lumen, and a venous segment defined by an outer wall enclosing a venous segment lumen, the venous segment lumen in fluid communication with the catheter body second lumen, the venous segment outer wall extending from the catheter body distal end to a distal nose portion. The distal nose portion can taper from a first outer perimeter to a second smaller outer perimeter.

A catheter has a guide-tip including at least one wing for crossing a CTO lesion in an artery via exploring the subintimal space. The catheter can includes one or more exit port(s) and radiopaque marker(s) for steering a re-entry wire through one of the exit ports. The catheter may include a number of spiral-cut sections with varying characteristics to provide different strength and flexibility along the axial direction.