The apparatus includes a catheter having a combined infusion/aspiration lumen, a three lumen proximal portion and a two lumen distal portion. An infusion/aspiration valve located at the distal end of the catheter facilitates performing infusion and aspiration through the same lumen, which in turn reduces the number of lumens, and enables the combined infusion/aspiration lumen to be made larger without the need to increase the diameter of the catheter. Differing material properties in the proximal and distal portions of the catheter enable the proximal portion to be made stiffer for pushability, while the distal portion is more flexible to navigate tortuous vasculature and enable a greater amplitude agitator to be received within the catheter.

A delivery catheter for implanting a self-expanding implant such as a cardiovascular implant. An outer catheter shaft is formed as an implant capsule for encasing the implant during delivery. A flexible distal support element having a substantially truncated cone-shaped portion, which tapers in the proximal direction, is attached, directly proximally of the implant, in a fixed position to a first, inner catheter shaft, and/or a flexible proximal support element having a substantially truncated cone-shaped portion, which tapers in the proximal direction, is inserted at the proximal end of the implant capsule into the second, outer catheter shaft in a fixed position.

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.

A system and method for making cuts in a catheter or other medical tubing may include one or more blades connected to a blade housing. The blade housing may be attached to one or more mounting stems, and the mounting stems are coupled to a drive mechanism to axially rotate the blade housing and blade. A cradle plate is positioned proximal to the blade. The cradle plate includes a circular passageway extending therethrough non-parallel to the axis of rotation of the blade for holding medical tubing to be cut. The cradle plate also includes an arced cut-out in the axis of rotation of the blade to allow the blade to rotate into the arced cut-out to cut the tubing without colliding with the cradle plate.

An embolization microcatheter having an elongated microcatheter body configured for passing therein a suspension of particles suspended in a suspension fluid; and a microcatheter head connected to a distal end of said microcatheter body and comprising a proximal head section and a distal head section, wherein the proximal head section includes a proximal wall forming a proximal section lumen, the proximal wall having a plurality of through-holes, wherein the distal head section includes a distal wall forming a distal section lumen, and a suspension delivery opening at a distal end of the distal end section; wherein the distal section is devoid of through-holes, and wherein each of the plurality of through-holes are shaped and/or sized to allow passage therethrough of the suspension fluid while blocking passage of the particles suspended therein.

An elongate medical device shaft may comprise an elongate body and an annular electrode disposed on the elongate body. The annular electrode may define a longitudinal axis and have an outer diameter. The outer diameter may be greater at an axial center of the electrode than at an axial end of the electrode. Additionally or alternatively, the elongate body may comprise three longitudinal sections having three wall thicknesses. The middle wall thickness may be less than the proximal and distal wall thicknesses and the distal wall thickness may be less than the proximal wall thickness. Additionally or alternatively, the shaft may comprise an inner cylindrical structure and an outer tube. The outer tube may comprise a first radial layer and a second radial layer that is radially-outward of the first radial layer, the first radial layer, second radial layer, and inner structure having different stiffnesses.

A flexible elongated tube for a catheter system includes a tubing wall. The wall has a plurality of first indentations spaced apart from each other along a longitudinal axis (L) of the tube and a plurality of second indentations spaced apart from each other along the longitudinal axis (L). An axially aligned pair of indentations has a non-impressed section between the axially aligned pair of indentations. The axially aligned pair of indentations and the non-impressed section form a pull wire space.

The present disclosure relates to interventional devices such as catheters and guidewire devices having micro-fabricated features for providing flexibility while maintaining good torquability. An interventional device includes an elongated member (500) having an arrangement of fenestrations which define a plurality of axially extending beams coupling a plurality of circumferentially extending rings. The fenestrations are arranged so that the resulting beams form a distributed, non-helical and non-linear pattern along the length of the elongated member. The pattern of fenestrations thereby minimizes or eliminates preferred bending axes.

A steerable instrument for endoscopic and/or invasive type applications includes an elongated tubular body having a proximal end part, a distal end part and an intermediate part between proximal and distal end parts, the proximal end part having at least one actuation proximal zone. The distal end part has at least one flexible distal zone, and the elongated tubular body is configured such that a movement of an actuation proximal zone is transferred to a corresponding flexible distal zone for a corresponding movement thereof. The elongated tubular body includes an inner, outer, and intermediate cylindrical elements having longitudinal elements between the inner and outer cylindrical elements. Inner, outer and intermediate cylindrical elements are coupled so movement of an actuation proximal zone is transferred by the longitudinal elements of one of the intermediate cylindrical elements to a corresponding flexible distal zone.

A tube like member having a first flexible portion comprising a first and a second circumferential slits, the first circumferential slit is arranged opposite to the second circumferential slit and comprises a first end and a second end, the second circumferential slit comprises a third end and a fourth end, wherein the first end and the third end are arranged such that a first bridge is provided between said first and second circumferential slits characterized in that the first flexible portion comprises a first longitudinal slit arranged longitudinally along the tube like member and a second longitudinal slit arranged longitudinally along the tube like member, wherein the first circumferential slit is communicatively connected to the first longitudinal slit, wherein the second circumferential slit is communicatively connected to the second longitudinal slit, the first longitudinal slit and second longitudinal slit being arranged to define longitudinal sides of the first bridge.