A multi-lumen insertion tube for use with an endoscope, the multi-lumen insertion tube having a circumferential outer wall defining a main inner lumen, and a plurality of inner septa dividing the main inner lumen into a plurality of lumens. The circumferential outer wall is configured to expand radially outwardly when positive pressure is applied through the insertion tube, and to at least partially collapse against at least one of the inner septa when negative pressure is applied through the insertion tube, such that further collapse of the circumferential wall is prevented by at least one of the inner septa.

A single or multiple lumen catheter is disclosed which includes an expandable lumen. The expandable lumen is movable from a collapsed or sealed configuration to an open or expanded configuration. In the open configuration, the expandable lumen is dimensioned to receive a guidewire or stylet or facilitate the introduction of fluids into a patient.

Improved urinary catheters are described. One example urinary catheter includes a catheter shaft with an internal lumen, extending between a distal discharge opening and a proximal drainage opening, arranged at a proximal tip of the catheter shaft. An overcoat layer encircles a portion of the catheter shaft, forming a closed deformable fluid filled cavity intermediate the overcoat layer and the outer surface of the shaft. The overcoat layer is elastically deformable to allow for movement of the fluid within the cavity during deployment. At least a portion at the proximal end is arranged to be compressed to a smaller diameter during insertion, and upon continued insertion of the catheter shaft through the urethra into at least the bladder neck, arranged to expand back toward a greater diameter, as the fluid is caused to flow toward the proximal end of the fluid filled cavity.

An expandable introducer apparatus comprising an inner tubular layer comprising an inner lumen and a radially expandable region extending along an elongated axis of the inner lumen and configured to at least partially radially expand relative to the elongated axis from a contracted orientation to an expanded orientation. An outer tubular layer comprising an inner surface bonded to the inner tubular layer, wherein a distal segment of the inner tubular layer extends beyond a distal end of the outer tubular layer. A flexible tubular member comprising a bonded region and a flexible region, wherein an inner surface of the bonded region is bonded to an outer surface of the distal segment of the inner tubular layer, and the flexible region is not bonded to the radially expandable region of the inner tubular layer.

Improved urinary catheters are described. One example urinary catheter includes a catheter shaft with an internal lumen, extending between a distal discharge opening and a proximal drainage opening, arranged at a proximal tip of the catheter shaft. An overcoat layer encircles a portion of the catheter shaft, forming a closed deformable fluid filled cavity intermediate the overcoat layer and the outer surface of the shaft. The overcoat layer is elastically deformable to allow for movement of the fluid within the cavity during deployment. At least a portion at the proximal end is arranged to be compressed to a smaller diameter during insertion, and upon continued insertion of the catheter shaft through the urethra into at least the bladder neck, arranged to expand back toward a greater diameter, as the fluid is caused to flow toward the proximal end of the fluid filled cavity.

Medical delivery devices, such as catheters, and methods of use and manufacture of the medical delivery devices. The medical delivery devices are adapted to facilitate delivery of an agent into a patient. The medical delivery devices may have one or more deformable lumens, each lumen of the one or more deformable lumens has a collapsed configuration and an open configuration. The medical delivery devices may include one or more agent delivery ports, any agent delivery port of the one or more agent delivery ports may be proximal or distal to an expandable device, such as a balloon.

An introducer sheath is described. The introducer sheath may include a tubular body. The tubular body may extend from a distal end toward a proximal end. The tubular body may include a lumen. The lumen may at least partially be defined by a wall. A channel may be disposed within the wall. The channel may be configured to receive a guidewire. The tubular body may include an expandable portion expandable to increase a cross-sectional area of the lumen.

This application relates to a system, device, and method for detecting and draining urine. The catheter uses at least two teardrop-shaped retention balloons and a balloon-blocking mechanism to allow efficient and complete urine drainage away from the user after urination.

In another embodiment, urine is automatically detected by a sensor and drawn away from the user by a pump to a storage location.

Elongate medical devices with an expandable structure including elongated splines and a distal hub. An elongate medical device includes a handle including a control mechanism, a catheter shaft, an expandable structure including elongated splines and a distal hub, wherein each of the elongated splines includes a shape memory material and an interactive element, wherein each of the elongated splines includes a respective spline proximal end and a spline distal end, wherein each of the spline proximal ends is connected to the catheter shaft distal end, and wherein each of the spline distal ends is connected to the distal hub, and a deflection control member connected to the distal hub, wherein the control mechanism is drivingly coupled to the distal hub via the deflection control member and operable to selectively vary a position of the distal hub relative to the catheter shaft distal end to selectively vary an amount of expansion of the expandable structure, wherein a shape of the expandable structure is produced via a combination of the shape memory material and the position of the distal hub relative to the catheter distal end.

Disclosed is a self-expanding cannula, systems using such cannulae, and methods of their use. The cannulae may comprise single lumen cannula (SLC) configurations and double lumen cannula (DLC) configurations, and include at least a first cannula and a self-expanding wire frame attached to the first cannula. Self-expanding wire frame is automatically expandable from a compressed state (providing a reduced cannula diameter as it is moved through a patient's body to the site at which it is to be deployed) to an expanded state (which increases the diameter of the cannula to the diameter intended for its normal use). The expanded wire frame provides radial support to prevent a drainage canal (whether a patient's blood vessel or a portion of the system inserted into the patient's blood vessel) from collapsing as fluid is drained from the patient.