A urinary catheter is disclosed. The urinary catheter comprises a catheter tube having a proximal insertion end and a distal end. The catheter also comprises a drainage member. The drainage member includes a wall having an inner surface and an outer surface. The inner surface defines a drainage lumen having an opening in a proximal end of the drainage member. The distal end of the catheter tube is inserted through the opening of the proximal end of the drainage member and is located in the lumen. The wall of the drainage member has at least one window therethrough. The drainage member and the catheter tube are welded to one another at one or more welding sites in the vicinity of the window(s).

An intermittent urinary catheter assembly 100 includes a reinforcement member 106 extending longitudinally at least partially within the distal end portion of the inner drainage lumen 104 of the catheter shaft. The reinforcement member may serve to connect a drainage member 114 to the catheter shaft and includes a drainage passageway in fluid communication with the inner drainage lumen of the shaft for allowing the drainage of urine through the urinary catheter assembly.

A catheter with three distinct compression resistance coils, including a body coil and two pull wire coils, is disclosed. The triple coil system can provide maximal resistance to compression of the catheter's proximal shaft, as well as maximization of the curve angle that the catheter tip can achieve. Additionally, the tri-coil catheter can allow for a lower initial compression load and a more flexible proximal shaft. A gap between the outer diameter of the pull wire and the inner diameter of the pull wire compression coil that is equal to about 10-30% of inner diameter of the pull wire compression coil can provide optimal catheter performance.

A balloon catheter includes a shaft having a first shaft portion and a second shaft portion located on a proximal side of the first shaft portion, and a balloon covering and joined to the second shaft portion. The first shaft portion is more flexible than the second shaft portion and has a length in an axial direction of 1.5 cm or more.

The disclosure includes a catheter comprising a proximal end, a distal end located opposite the proximal end, an outer surface extending between the proximal end and the distal end, and an inner surface located opposite the outer surface, wherein the inner surface is configured to also extend between the proximal end and the distal end. In some embodiments, each of the outer and inner surfaces is coated in a hydrophilic coating. The hydrophilic coating may be configured to reduce surface tension and increase the lubricity of the catheter.

Catheter and methods for designing, making, and using catheters are disclosed. An example catheter is a balloon catheter. The balloon catheter may include a proximal shaft. The proximal shaft may be a bare metal hypotube having a skew value of −1.0 to −2.5. A midshaft may be attached to the proximal shaft. A distal shaft may be attached to the midshaft. A balloon may be coupled to the distal shaft. An inflation lumen may be defined that extends from the proximal shaft, through the midshaft, and into the distal shaft. The inflation lumen may be in fluid communication with the balloon.

A package or container for a catheter having a catheter tube with a proximal end provided with a catheter outlet and a distal opening at a distal end thereof. A gel receptacle is provided with a cavity for holding an amount of a lubricating agent, and the catheter tube extends therethrough. The gel receptacle is configured such that as the catheter is withdrawn from a stored position therein, a leading tip of the catheter is immersed in the lubricating agent, thus automatically coating the leading tip. The gel receptacle may be held within a rigid body or may be a standalone item packaged in a sterile bag solely with the catheter. A side wall of the gel receptacle is deformable so that as the catheter is withdrawn proximally the side wall is collapsed inward to displace the lubricating agent gel and coat an exterior surface of the catheter tube.

The disclosure includes a catheter system comprising an inner catheter and an outer catheter configured to at least partially receive the inner catheter. Each of the inner catheter and the outer catheter may comprise an outer surface and an inner surface, wherein each of the outer and inner surfaces may be coated in a hydrophilic coating. In some embodiments, the hydrophilic coating is configured to reduce surface tension and increase lubricity of the inner catheter and the outer catheter.

A method of making a ready-to-use catheter assembly is provided, which can be immediately used by a patient. The ready-to-use catheter assembly ensures that the catheter does not suffer from a loss of quality during its shelf life and a wetting medium are provided. The method comprises: placing a catheter with an inactivated hydrophilic outer surface at least along its insertable length and a wetting medium in a catheter package; treating the catheter package with the catheter and the wetting medium with electro-magnetic and/or particle radiation while at least initially the hydrophilic outer surface at least along the insertable length of the catheter remains inactivated; and activating the hydrophilic outer surface at least along the insertable length of the catheter with the wetting medium during and/or after the radiation treatment and wherein the wetting medium decreases in viscosity when submitted to electro-magnetic and/or particle radiation.

An elongate medical device comprising a first lumen, wherein a cross-sectional shape of the first lumen comprises a peanut shape, and a plurality of second lumens, wherein the plurality of second lumens are proximate the first lumen, wherein the first lumen comprises a lumen liner that conforms to the cross-sectional shape of the first lumen, wherein the lumen liner comprises a first material and the elongate medical device comprises a second material, where the first material is different from the second material.