Systems, devices, and methods are provided for the delivery of an implant into the prostatic urethra. Embodiments of delivery systems can include a delivery device for insertion into the patient and a proximal control device for use in controlling release of the implant from the delivery device.

Systems, devices, and methods are provided for the delivery of an implant into the prostatic urethra. Embodiments of delivery systems can include a delivery device for insertion into the patient and a proximal control device for use in controlling release of the implant from the delivery device.

A urethral stent for arrangement in the urethra of a patient is disclosed. The ethereal stent includes a tubular body having first and second openings, retention elements connected to the tubular body at the first opening and to the tubular body at a distance from the first retention element, and a valve. The valve includes a valve seat formed by the first opening and a valve element that is pivotably connected to the tubular body and/or the valve seat. The valve is pivotable between a closed position and an open position to close and open the lumen, respectively. The valve is at least partly made of a ferromagnetic material and has an area which exceeds the area of the first opening. A bladder control assembly comprising the urethral stent is also disclosed.

Provided is a ureteral stent (=50) including a bladder portion (=52) positioned in a bladder of a patient, a kidney portion (=54) positioned in a kidney and ureteral passageway of the patient, and one or more tethers (=56) coupling the bladder portion to the kidney portion. The ureteral stent allows urine to pass around a blockage, and allows a ureter orifice connecting the ureteral passageway to the bladder to move between a compressed state and an uncompressed state to prevent or minimize urinary reflux, flank pain, blood in the urine, etc., while allowing the bladder portion to move freely in the bladder to prevent the bladder portion from irritating the trigone muscle.

Extra-urethral implants and methods of use are disclosed. Implants can treat disorders or diseases of the prostate by, for example, enlarging the lumen of the prostatic urethra.

An indwelling stent is provided. The stent includes a distal member that extends between a distal end portion and a proximal end portion and defines a lumen therethrough, and a proximal member that extends between a distal end portion and a proximal end portion and defines a lumen therethrough, wherein the distal member and the proximal member collectively define the stent, and wherein the distal and proximal members are discrete components and are telescopingly arranged with the distal end portion of the proximal member extending over an outer surface of the distal member.

An implant with which prostates of different sizes can be treated is achieved by the fact that the length of a deployed implant is modifiable to a variable extent. Through the change of length of a stretched-out wire structure of the implant, the implant can be adapted individually to the patient anatomy and the outcome of treatment can thus be improved.

A dilating device for the prostatic urethra comprising: at least three, laterally connected ridges, wherein each ridge is configured to longitudinally engage with a different substantially longitudinal groove of the prostatic urethra of a patient, and wherein the at least three laterally connected ridges are configured to laterally compress to enable insertion into the prostatic urethra in a compressed configuration, and wherein the at least three laterally connected ridges are configured to laterally expand to a normally-open configuration upon deployment within the prostatic urethra, to exert a radially outwards force that dilates the prostatic urethra.

A urological repair device includes a stent having a diameter that fits within a portion of a urological structure. The stent also has a length to bridge a distance between a first end of the urological structure and a second end of the urological structure. The stent includes at least one tapered end. The tapered end enables placement of the stent within the urological structure. A method of repairing a urological structure includes placing a first end of a substantially tubular urological structure over a first end of a tubular stent, and placing a second end of a substantially tubular urological structure over a second end of a stent, and attaching the first end of the substantially tubular urological structure, the second end of a substantially tubular urological structure, and the tubular stent to form a fluid passageway.

A stent is disclosed that is configured to maintain patency of the prostatic urethra despite an enlarged prostate. The stent can include a handle that, in an undeflected position, is disposed outside of the flow path of the stent. When the handle is pulled, the handle can deflect to generally aligned with a central axis of the stent. A capture device is disclosed that includes a tapered tip to navigate a working channel of a delivery device and a hook that can capture the stent handle and be moved into a tube to retain the stent handle to facilitate maneuvering of the stent in and out of the working channel of the delivery device. A loading adapter with a tapered port is disclosed that can be disposed on the delivery device to distribute compressive forces applied by the port on the stent during loading into the working channel.