Provided are a vascular stent, a conveying balloon thereof, and an implanting system. The vascular stent comprises a flexible light-transmitting body. The flexible light-transmitting body is provided with a hardenable channel. The hardenable channel is arranged in the circumferential direction and the axial direction of the flexible light-transmitting body. The hardenable channel is used for filling a liquid photocuring supporting material, and the liquid photocuring supporting material is cured after being illuminated so as to radially support the flexible light-transmitting body.

Provided are a vascular stent, a conveying balloon thereof, and an implanting system. The vascular stent comprises a flexible light-transmitting body. The flexible light-transmitting body is provided with a hardenable channel. The hardenable channel is arranged in the circumferential direction and the axial direction of the flexible light-transmitting body. The hardenable channel is used for filling a liquid photocuring supporting material, and the liquid photocuring supporting material is cured after being illuminated so as to radially support the flexible light-transmitting body.

Methods, materials, devices, and systems for electropolymeric paving and sealing (ePEPS) are provided. The methods include delivering paving materials to an interior surface of a blood vessel, tissue lumen or other hollow space, delivering electronic components to the surface, and forming a conformal device that contains the paving material and the integrated electronic components. Integrated electronic components can be homogenously or heterogeneously distributed in the material, such as on the top, middle, and/or bottom of the polymeric material. The devices are biocompatible, and preferably biodegradable or bioerodible. The devices integrated electrical properties useful for sensing or detecting one or more analytes, signals or conditions, transmitting or generating a signal, or releasing a therapeutic, prophylactic or diagnostic agent. Optionally, the devices are smart devices that include feedback and logic means to respond to a change in local conditions.

Methods, materials, devices, and systems for electropolymeric paving and sealing (ePEPS) are provided. The methods include delivering paving materials to an interior surface of a blood vessel, tissue lumen or other hollow space, delivering electronic components to the surface, and forming a conformal device that contains the paving material and the integrated electronic components. Integrated electronic components can be homogenously or heterogeneously distributed in the material, such as on the top, middle, and/or bottom of the polymeric material. The devices are biocompatible, and preferably biodegradable or bioerodible. The devices integrated electrical properties useful for sensing or detecting one or more analytes, signals or conditions, transmitting or generating a signal, or releasing a therapeutic, prophylactic or diagnostic agent. Optionally, the devices are smart devices that include feedback and logic means to respond to a change in local conditions.

Medical appliances may be formed of multilayered constructs. The layers of the constructs may be configured with various physical properties or characteristics. The disposition and arrangement of each layer may be configured to create an overall construct with a combination of the individual properties of the layers. Constructs may be used to create vascular prostheses or other medical devices.

The invention relates to a suction stent for introduction into a hollow organ of the human or animal body, preferably into the gastrointestinal tract, in particular the intestine, comprising a tubular hollow body which is open in the longitudinal direction and made of biocompatible material, the tubular hollow body having a fixed diameter at least in its central portion; and a porous shapeable material, preferably a sponge material, which is biocompatible and shapeable in the radial direction, the porous shapeable material radially sheathing the tubular hollow body at least in a section of the tubular hollow body. Further, the invention relates to a method for sealing a leakage, especially an anastomosis, of the hollow organ.

Disclosed herein is a device, system, and method for making a bioresorbable intraluminal support device. The intraluminal support device may be introduced to a body lumen of a patient as a prepolymeric substance, and may be polymerized to form the solid device in vivo. The polymerization may be via irradiation, such as ultraviolet irradiation. Methods of treating a patient are also disclosed.

Disclosed herein is a device, system, and method for making a bioresorbable intraluminal support device. The intraluminal support device may be introduced to a body lumen of a patient as a prepolymeric substance, and may be polymerized to form the solid device in vivo. The polymerization may be via irradiation, such as ultraviolet irradiation. Methods of treating a patient are also disclosed.

Methods and devices for treating a luminal pathology affecting an anatomical lumen of a patient comprising forming, in situ, a continuous cohesive layer of covalently-crosslinked hydrogel in a luminal wall of the anatomical lumen.

Methods and devices for treating a luminal pathology affecting an anatomical lumen of a patient comprising forming, in situ, a continuous cohesive layer of covalently-crosslinked hydrogel in a luminal wall of the anatomical lumen.