An apparatus for use with an elongated medical device configured to be tacitly contacted by a user is disclosed. The apparatus includes an elongated medical-conveyance assembly defining an elongated conveyance lumen configured to receive the elongated medical device. A tactile feature is located at (in) the elongated conveyance lumen. The elongated guidewire-conveyance assembly may include biocompatible material properties suitable for sufficient performance.

Negative pressure therapy systems are provided for increasing urine production, the negative pressure therapy system including: (a) a pump assembly, the pump assembly including: (i) a pump configured to provide negative pressure to a kidney, and (ii) a controller configured to regulate the negative pressure provided by the pump within a pressure range that facilitates increased urine production from the kidney.

A method of forming a three-dimensional object is carried out by providing a carrier and an optically transparent member having a build surface, the carrier and the build surface defining a build region therebetween; filling the build region with a polymerizable liquid; irradiating the build region through the optically transparent member to form a solid polymer from the polymerizable liquid and advancing the carrier away from the build surface to form the three-dimensional object from the solid polymer, while also concurrently with the irradiating and/or advancing steps: (i) continuously maintaining a dead zone of polymerizable liquid in contact with the build surface, and (ii) continuously maintaining a gradient of polymerization zone between the dead zone and the solid polymer and in contact with each thereof. The gradient of polymerization zone comprises the polymerizable liquid in partially cured form (e.g., so that the formation of fault or cleavage lines between layers of solid polymer in the three-dimensional object is reduced). Apparatus for carrying out the method is also described.

A dilator system for arterial and venous cannulas, where there is a smooth transition between the dilator and the outer wall of the cannula. One aspect of the subject technology provides a blunt-tip cannula that is used as a dilator for insertion of an arterial or venous cannula. The balloon might either be a single diameter or may have a larger diameter at the distal portion such that the diameter of the distal portion of the balloon dilator matches the diameter of the cannula at the tip. Another aspect of the subject technology is a balloon dilator for cannulae that may be positioned over a guidewire, for guidewire-directed placement of a cannula within a vessel, duct, lumen or heart structure of the body. Another aspect of the subject technology is an inflation system for the balloon dilator, such that the balloon dilator may be deflated and quickly removed from the cannula after the cannula has been positioned and secured within the vessel, duct, lumen or heart structure. Another aspect of the subject technology includes a stiffening element in the balloon dilator along its shaft to increase the rigidity of the combined balloon dilator and cannula to provide improved ease of insertion. Another aspect of the subject technology is an improved curvature of the shape of the right angle dilator that achieves more uniform flow within the dilator and ease of insertion and more even flow within the cannula, and ease of insertion of and retraction of the balloon dilator. Another aspect of the subject technology is a gel-filled balloon dilator that improves ease of insertion of the cannula within the vessel, duct, lumen or heart structure, and can be removed without deflation.

An apparatus and methods tissue restoration are provided. The apparatus may include a catheter shaft extending from a proximal end to a distal tip, a plurality of serial balloons positioned on a translucent distal segment of the catheter shaft proximal to the distal tip and positioned inside of and concentric with a second distal balloon, the plurality of serial balloons in fluid communication with an inflation source via a first lumen, each of the plurality of serial balloons having a selectively expandable outermost radial surface. The plurality of serial balloons may include a translucent material, a series of isolated volumetric regions positioned between the plurality of serial balloons and recessed from the outermost radial surfaces of the serial balloons. The apparatus may include a distal balloon positioned around the plurality of serial balloons, and a light fiber positioned in the catheter shaft and extending through the translucent distal segment.

An adapter for a medical device catheter comprises a proximal portion and a distal portion, and an elongated element extending therebetween. An attachment mechanism is positioned at a proximal portion of the elongated element and comprises an interfacing element configured to be completely received inside a lumen at the distal end of a medical device catheter to attach the proximal portion of the adapter to the medical device catheter.

A ureteral catheter is provided, including a drainage lumen including a proximal portion and a distal portion configured to be positioned in a patient's kidney, renal pelvis, and/or in the ureter adjacent to the renal pelvis, the distal portion including a retention portion for maintaining positioning of the distal portion of the drainage lumen, the retention portion including at least two openings on a sidewall of the retention portion for permitting fluid flow into the drainage lumen wherein a total area of a proximal most opening of the at least two openings is less than a total area of more distal opening(s) nearer to the distal end of the drainage lumen, and wherein when negative pressure is applied through the ureteral catheter, fluid is drawn into the ureteral catheter through the at least two openings.

Everting balloon systems and methods for using the same are disclosed herein. The systems can be configured to access and dilate body lumen and cavities. For example, the systems can be used to dilate the cervix and access the uterine cavity. The systems can also be used to occlude the cervix. The systems can also be used to occlude the urethra.

A medical instrument includes a shaft, a distal-end assembly and a puller-wire. The shaft is configured for insertion into a body of a patient. The distal-end assembly, which is coupled to the shaft, includes a telescopic assembly, configured to elongate so as to collapse the distal-end assembly, and to compress so as to expand the distal-end assembly. The distal-end assembly further includes an elastic element, coupled to self-elongate and thus elongate the telescopic assembly. The distal-end assembly also includes an inflatable balloon, which is coupled to the telescopic assembly and is configured to collapse by the telescopic assembly elongating, and to expand by the telescopic assembly compressing. The puller-wire runs through the shaft and is connected to a distal end of the telescopic assembly, and is configured, when pulled, to compress the telescopic assembly.

Provided are drug infusion catheters comprising an axially extending elongate member, an inflatable balloon, two or more cannula each housing an extendable needle. The drug infusion catheters are useful in the delivery of drugs to tissue surrounding a lumen or vessel within a body.