The present disclosure describes a treatment composition comprising a nanoparticle composition comprising nanoparticles functionalized with surface amine groups and a crosslinking composition comprising genipin. The disclosure also describes a kit comprising the treatment composition, and instructions for using the kit to crosslink the nanoparticles to a tissue graft. The treatment composition and kit can be used to crosslink nanoparticles to a tissue graft, and the resulting tissue graft can be used to replace defective tissue in a subject in need thereof.

Systems, instruments, methods, and compositions are described involving removing a portion of the epidermis within a donor site on a subject, and harvesting dermal plugs within the donor site. An injectable filler is formed by mincing the dermal plugs. The injectable filler is configured for injecting into a recipient site on the subject.

The present disclosure relates to a device for printing a lumen tissue construct, a method for using the same, and a 3D bioprinter. The device includes a spray head assembly for printing a biological construct; and a bioprinting platform for supporting a lumen tissue, and for carrying a biological construct printed by the spray head assembly, and for applying the biological construct to an inner surface of the lumen tissue. The device for printing a lumen tissue construct of the present disclosure provides the spray head assembly and the bioprinting platform, and the spray head assembly applies the biological construct onto the inner surface of the lumen tissue by the bioprinting platform, to avoid such problems as recurrence of thrombus and restenosis of a lumen after the lumen tissue has been implanted for a long time, thereby improving the biological reliability of the lumen tissue.

Described are means for the direct and continuous connection of a catheter to the lumen of any tubular anatomical structure, or ductus, without medically significant leakage. A port implanted at the body surface with piping to a periductal collar allows drug or radionuclide delivery that bypasses the upstream lumen. The port allows injection, infusion, aspiration, or attachment of an automatic ambulatory pump. A superparamagnetic nanoparticle carrier-bound drug, for example, can be introduced into the lumen to pass downstream until the particles, with or without the drug still bound, are drawn into the lumen wall by a magnetized jacket surrounding the ductus. Such constitutes a method of drug targeting whereby a segment of a vessel or the territory supplied by a branch of that segment can be circumscribed for exposure to the drug. A jacket with side-entry connector positioned in surrounding relation to a lesion requiring treatment can itself be magnetized.

Drug delivery devices (700) are provided herein and include an elongated, elastic body (706) extending between a first end and a second end, wherein the elastic body comprises a water permeable wall structure (708) having defining an elongated drug reservoir lumen (714) extending between the first and second ends. One or more secondary lumens (718) are structured (e.g., positioned, sized, shaped, and optionally filled) to be effective to retard or prevent in vivo diffusion of (i) water into the drug reservoir lumen and/or (ii) solubilized drug out of the drug reservoir lumen.

An artificial bladder is provided, including: a main body which includes an inlet port, an outlet port, an inner wall that forms a first reservoir portion configured to store urine between the inlet port and the outlet port and that is expandable and contractible. An outer wall forms a second reservoir portion configured to surround at least a partial region of the inner wall. A sensor is attached to the inner wall, has a surface having a wrinkled structure, and is provided so that, when the volume of the first reservoir portion increases, the wrinkled structure stretches out and resistance of the sensor changes. A control unit is provided to discharge the urine in the first reservoir portion through the outlet port according to a result detected by the sensor.

Provided is a ureteral stent for placement in a bladder, a kidney and a ureteral passageway connecting the bladder and the kidney. The ureteral stent includes a solid bladder portion free of a lumen positionable in the bladder, a tubular kidney portion positionable in the kidney and the ureteral passageway, and a tether connecting the bladder portion and the ureter portion to allow the bladder portion to float in the bladder and to allow a ureter orifice connecting the ureteral passageway to the bladder to move between a compressed state and an uncompressed state. By not having a lumen, the solid bladder portion allows the bladder to have a smaller diameter while maintaining a necessary uncoil force. The smaller diameter also allows the bladder portion to be inserted into a scope alongside a pusher tube, thereby avoiding loading the bladder portion onto a guidewire.

The present disclosure relates generally to controlled extension medical stents, and more particularly to controlled extension devices positioned in the body to stent the ureter and facilitate drainage from the kidney to the bladder.

The present invention relates to an apparatus for treating urinary retention of a patient by assisting the discharging of urine from a natural urinary bladder. The apparatus is provided with an expandable member, adapted to be implanted inside the natural urinary bladder of the patient, for discharging urine from the natural urinary bladder as a result of its expansion in volume and an implantable control device for controlling the volume of the expandable member. Also provided is an interconnecting device configured to connect the expandable member to the implantable control device.

Embodiments of the invention provide apparatus, systems and methods for stimulating tissue in the urinary tract to initiate or facilitate urination. One embodiment provides an external urinary sphincter stimulation (EUSS) catheter for stimulating the external urinary sphincter (EUS), where the EUSS catheter includes nerve stimulation electrodes (NSES) for delivering current to nerves within or around the EUS in order to relax the EUS prior to urination. Other embodiments provide a system for stimulating the EUS including the EUSS catheter and a controller operatively coupled to the EUSS catheter, where the controller includes a pulse generator for delivering current to the NSES. Other embodiments provide methods for positioning the EUSS catheter in the patient's body including in the EUS using a urethral approach. Embodiments of the invention are particularly useful for initiating and/or controlling urination for patients who have lost the ability to voluntarily urinate due to neurogenic bladder dysfunction.