The disclosure relates to a catheter device (1) comprising a catheter (2) and a hypodermic introducer needle (3), wherein an extended portion (19) of the hypodermic introducer needle (3) is provided with ribs (23, 23a) that circumvent said extended portion, and a proximal end (5) of the catheter (2) is provided with a locking flange (25) adapted to engage with the ribs (23, 23a), such that each rib engaging with the locking flange (25) will provide a tactile indication to the user of the advancement of the catheter (2) in relation to the needle (3).

An all-purpose drainage catheter which includes an all-purpose drainage catheter lumen, an extension tubing, a collection bag, a catheter hub, a Luer valve. The extension tubing inserted into the all-purpose drainage catheter lumen. The collection bag is fluidly coupled to the extension tubing. The Luer valve facilitates nephrostomy care so that when the all-purpose drainage catheter is in place urine flows from the renal pelvis into the all-purpose drainage catheter lumen, the extension tubing and the collection bag. The Luer valve employs a scalloped Luer-style male connector which, when screwed into the catheter hub, further allows urine to flow from the renal pelvis into the all-purpose drainage catheter lumen, the extension tubing and the collection bag. The all-purpose drainage catheter includes an outer catheter hub, an inner catheter hub coupled to the Luer valve at one end thereof and insertedly coupled to the outer catheter hub. A gear rack has a set of ratchet teeth and is disposed on and coupled to the inner catheter hub. A ratchet pawl disposed on and coupled to the outer catheter hub and aligned with the gear rack so that the ratchet pawl engages one of the ratchet teeth to secure the inner catheter hup to the outer catheter hub.

Described herein is a liquid embolic delivery device designed to minimize excess embolic solvent buildup therein. The liquid embolic delivery device generally comprises an outer catheter, an inner catheter that is longitudinally moveable within the outer catheter. The inner catheter is used for an initial embolic solvent flush and to deliver liquid embolic, while the outer catheter is used to remove excess solvent.

A sheath locking system comprising an introducer locking hub comprising a hub body defining a locking channel for engaging a corresponding guide on a sheath locking sleeve. The sheath locking sleeve removably coupled to the introducer locking hub via engagement between the guide and the locking channel. The sheath locking sleeve movable between an unlocked position where the sheath locking sleeve is rotationally and axially movable with respect to the introducer locking hub, and a locked position where the sheath locking sleeve is axially fixed with respect to the introducer locking hub.

A needle hub (10) includes a core mounting structure (27), a first panel (28) and a second panel (29) connected to the core mounting structure (27) with an opening formed between the first panel (28) and the second panel (29), an introducer needle (72) fixedly attached to the core mounting structure (27) for insertion into a patient, and an actuation lever (16, 18) cantilevered longitudinally at a central portion thereof from the core mounting structure (27) and having an actuation button (12, 14) disposed at a proximal free end and a latch (24, 26) disposed at a distal free end.

A catheter system may include a catheter assembly and a catheter delivery device. The catheter assembly may include a catheter adapter, which may include a catheter adapter distal end, a catheter adapter proximal end, and a catheter adapter lumen extending through the catheter adapter distal end and the catheter adapter proximal end. The catheter assembly may include a primary catheter extending from the catheter adapter distal end. The catheter delivery device may include a housing, which may include a housing distal end coupled to the catheter assembly, a housing proximal end, and a housing lumen extending through the housing distal end and the housing proximal end. A secondary catheter may be disposed within the housing. The secondary catheter may be configured to move distally through the catheter assembly in response to a fluid pressure provided by a fluid delivery device coupled to the housing proximal end.

An stent delivery system may include a delivery device and a tubular body having a lumen sized to slidably fit about an outer diameter of the delivery device and a drainage stent having an anchoring mechanism, wherein the delivery device includes a constraining member configured to engage an external portion of the tubular body at the proximal end of the delivery device. A method of delivering a stent may include inserting a tubular body into the port of an endoscope, inserting a stent delivery device and a stent having an anchoring mechanism into the tubular body, wherein the delivery device includes a constraining member configured to engage and retain the tubular body at the proximal end of the delivery device, advancing the drainage stent distally through the tubular body, sliding the tubular body proximally, and engaging an external portion of the tubular body with the constraining member.

One larger [1] and one smaller tube [2], forming a functional unit with the smaller tube [2] positioned within the larger tube [1], both tubes are relocatable and demountable, both tubes with an aperture [3 and 4] at both ends, at least one aperture [5] being provided in the wall of the outer tube located at a distance of about between 1 mm and 10 cm from the tip [6], or several apertures positioned in a segment of 1-250 mm from the tip, wherein the diameter of the single aperture is between 70% and 120% of the inner diameter of the outer tube [1], or in case of several apertures, for each aperture 30-60% of the inner diameter of the outer tube, wherein the outer diameter of the inner tube is between 0.6 mm and 2.0 mm (F2 to F6), the outer diameter of the outer tube is between 1.3 mm and 3.6 mm (F4 to F11), and the distance between the outer wall of the inner tube and the inner wall of the outer tube is between 0.1 mm to 3.0 mm.

Apparatuses and methods for retaining a catheter are disclosed. In particular, described herein are apparatuses (e.g., introducer lock apparatuses, devices and systems including them) and methods for securing a catheter relative to an introducer sheath. In particular these apparatuses and method may secure an outer catheter of a mechanical thrombectomy apparatus to prevent the outer catheter from moving proximally when an inner member within the outer catheter is pulled proximally, applying a compression force that would otherwise drive the outer catheter proximally.

Various implementations include an arteriovenous graft device. The device includes an outer conduit and an inner conduit. The outer conduit has a first outer conduit end and a second outer conduit end opposite the first outer conduit end. The first outer conduit end defines an outer conduit opening extending from the first outer conduit end to the second outer conduit end. The first outer conduit end is configured to be in fluid communication with an artery and the second outer conduit end is configured to be in fluid communication with a vein. The inner conduit defines an inner conduit opening. The inner conduit is sized to be disposed within the outer conduit opening. The inner conduit is movable between a collapsed position and an expandable position.