A catheter assembly includes a catheter shaft having shaft proximal and distal portions. A hub is coupled with the catheter shaft proximate the shaft proximal portion. A graduated strain relief fitting is coupled between the catheter shaft and the hub. The graduated strain relief fitting includes at least a first flexural modulus proximate the hub and a fitting proximal portion. The graduated strain relief fitting includes a second flexural modulus proximate the catheter shaft and a fitting distal portion. The second flexural modulus is less than the first flexural modulus and less than or equal to a catheter shaft flexural modulus. The first and second flexural moduli are modulated with one or more of a taper, flexure joints, fitting frame of the fitting or material of the fitting body.

A medical tube including a flexible tube-shaped main body, a hub connected to the proximal portion of the tube-shaped main body, and a strain relief member supported at a distal portion of the hub. The strain relief member surrounds a predetermined portion of the proximal portion of the tube-shaped main body. The tube-shaped main body includes a flexible portion which possesses increased flexibility for bending. The flexible portion includes at least one groove extending in a circumferential direction in the outer circumferential surface of the tube-shaped main body over a predetermined range in an axial direction of the tube-shaped main body from a position distal of the distal-most end of the strain relief member to a position proximal of the distal-most end of the strain relief member.

A hemostasis valve for use in a medical device. The hemostasis valve may include a generally cylindrical body having a proximal side, a distal side, and a thickness extending therebetween. The proximal side may include a tapered central region having a surface sloped towards a center of the body and the distal side may include a distally extending curved central region.

An IV catheter system may have a catheter component with a catheter hub, a cannula extending distally from the catheter hub, and a push feature protruding outwardly from the catheter hub. The IV catheter system may also have a needle component with a needle hub, a needle extending distally from the needle hub along an axis, and a grip extending from the needle hub, generally parallel to the axis, with a pull feature. In the insertion configuration, the needle may be positioned within the cannula and the distal end of the needle hub may be seated in a needle port of the catheter hub. In the fluid delivery configuration, the needle may be positioned outside the catheter hub. The push and pull features may be positioned to facilitate manipulation with a single hand to move the IV catheter system from an insertion configuration to a fluid delivery configuration.

A catheter having a catheter shaft connected to a two-part connecting piece. The catheter shaft includes a first tube forming a first lumen and a second tube disposed at least partially within the first tube to form a second lumen. The first and second tubes terminate proximally at a same longitudinal position. An outer surface of the second tube is welded longitudinally to an inner surface of the first tube to form a weld seam. The connecting piece includes a conical-shaped proximal element with a conical-shaped outer contour that fits into a distal element so that the second lumen seals around the proximal element and sole access to a proximal end of the first lumen is through the distal element.

Catheter adapters and vascular access device including catheter adapters are discloses. The catheter adapter tip opening has an internal curvature defining a tapered region in the lower portion, but not the upper portion, to support a flexured portion of the catheter to prevent kinking and occlusion.

The present disclosure is directed to an expandable sleeve for a catheter assembly. The expandable sleeve includes a body configured to fit coaxially around an outer diameter of a catheter of the catheter assembly at a transition location between a hub and the catheter. Further, the body of the sleeve includes a length extending from a first end to a second end. As such, the sleeve is expandable between a compressed position and an expanded position so as to prevent the catheter from collapsing along the length of the sleeve. In addition, when in the expanded position, at least a portion of an interior surface of the sleeve contacts an outer diameter of the catheter.

A vascular access device is disclosed including a catheter, a catheter adapter having a distal end and a proximal end, an overall length extending from the distal end to the proximal end, an internal cavity, an upper portion, a lower portion and a tip having a distal opening having a circumference through which the catheter extends, an introducer needle extending through the catheter; and a needle hub connected to the proximal end of the introducer needle. The catheter adapter being connected to the proximal end of the catheter and at least a majority of the catheter adapter is made from a first material and at least a portion of the tip is made from a second material that is more flexible than the first material.

In various examples, a hub for a medical device includes a hub housing including a passage from a proximal end of the hub housing to a distal end of the hub housing. A valve is disposed within the hub. The valve is configured to allow passage of an insertable device through the valve while inhibiting leakage of fluid from the valve. A cap is engaged to the hub housing. The cap includes an opening therethrough sized and shaped to allow passage of the insertable device through the opening. The opening allows access to the passage of the hub housing. An angled sidewall is disposed within the hub. The angled sidewall is configured to retain and deform the valve into a curved shape.

Disclosed herein are expandable introducer sheaths and methods of making and using the same. The sheaths minimize trauma to a patient's vasculature by allowing for temporary expansion of a portion of the sheath to accommodate passage of a delivery system for an implant, then return to a non-expanded state after the passage of the device. The sheath includes a foldable inner member having a detached flap structure at its distal tip that facilitates expansion of the sheath lumen to increased diameters, and an elastomeric distal end that reduces push and retrieval forces therethrough. The sheath can include a hemostasis seal on its proximal end to prevent the leakage of blood out of the sheath and prevent ballooning of outer layer of the sheath.