Abstract: The invention describes substrates, such as prosthetics, films, nonwovens, meshes, etc. that are treated with a bioadhesive. The bioadhesive includes polymeric substances that have phenyl moieties with at least two hydroxyl groups. The bioadhesive constructs can be used to treat and repair, for example, hernias and damaged tendons.

Abstract: A bioactive and biocompatible polyurethane-butanediol-glycosaminoglycan copolymer for use in medical implant devices. The biocompatible urethane component being the reaction product of 4,4?-methylene-di-(p-phenyl isocyanate) and poly(tetramethylene oxide)n and further reacted with 1,4-butanediol, wherein n=10 to 40. The bioactive glycosaminoglycan being a salt of hyaluronic acid, such as a cetylpyridinium salt acid having 5 to 10,000 repeating units or a salt of heparin, such as a dimethyldioctadecylammonium salt of heparin has 5 to 65 repeating units or a suitable salt of dermatan sulfate. The weight content of the bioactive glycosaminoglycan is an amount sufficient to render the copolymer bioactive. The copolymers described herein have excellent hemocompatibility and biocompatibility.

Abstract: The invention relates generally to thin-film adhesive materials suitable for various applications. In particular, the present invention provides pliable viscoelastic thin-films configured to form strong water-resistant adhesive bonds to various surface types.

Abstract: The invention describes families of compounds that utilize multihydroxyl phenyl groups to provide adhesive properties. Selection of the multihydroxy phenyl group along with linkers or linking groups and the linkages between the linkers or linking groups with polyalkylene oxides, provides materials that can be engineered to afford controllable curing time, biodegradation and/or swelling.

Abstract: The invention describes new synthetic medical adhesives and films which exploit the key components of natural marine mussel adhesive proteins.

Abstract: The invention describes families of compounds that utilize multihydroxyl phenyl groups to provide adhesive properties. Selection of the multihydroxy phenyl group along with linkers or linking groups and the linkages between the linkers or linking groups with polyalkylene oxides, provides materials that can be engineered to afford controllable curing time, biodegradation and/or swelling.

Abstract: The invention describes substrates, such as prosthetics, films, nonwovens, meshes, etc. that are treated with a bioadhesive polymer blend. The bioadhesive includes polymeric substances that have phenyl moieties with at least two hydroxyl groups. The bioadhesive blend constructs can be used to treat and repair, for example, hernias and damaged tendons.

Abstract: A method for positioning a Mobile Station (MS) is provided. The method includes transmitting, by a serving base station of a MS, indication information of a Location Based Services (LBS) zone to the MS receiving, by the MS according to the indication information, a reference signal used for positioning the MS in the LBS zone from a base station of a neighboring cell, wherein the LBS zone is multiplexed with a control information field in N downlink subframes, or with the control information field and a data field in the N downlink subframes, and wherein N is larger than or equal to 1. In the case of restraining interference of a serving cell signal to a neighboring cell signal, the requirements of system resource allocation and Hybrid Automatic Repeat Request (HARQ) timing synchronization can also be satisfied.

Abstract: A method and an apparatus for transmitting/receiving a reference signal in a mobile communication system are provided. The method of a base station includes determining a cell identifier of a plurality of segments included in the base station, determining a resource allocated to the plurality of segments using the cell identifier in a preconfigured Location Based Service (LBS) zone, and transmitting a reference location beacon signal via the determined resource. The plurality of segments is allocated the same resource, and transmits the same signal. Therefore, accuracy of location estimation may be guaranteed.

Abstract: The invention describes substrates, such as prosthetics, films, nonwovens, meshes, etc. that are treated with a bioadhesive. The bioadhesive includes polymeric substances that have phenyl moieties with at least two hydroxyl groups. The bioadhesive constructs can be used to treat and repair, for example, hernias and damaged tendons.

Abstract: The invention describes substrates, such as prosthetics, films, nonwovens, meshes, etc. that are treated with a bioadhesive. The bioadhesive includes polymeric substances that have phenyl moieties with at least two hydroxyl groups. The bioadhesive constructs can be used to treat and repair, for example, hernias and damaged tendons.

Abstract: The invention describes families of compounds that utilize multihydroxyl phenyl groups to provide adhesive properties. Selection of the multihydroxy phenyl group along with linkers or linking groups and the linkages between the linkers or linking groups with polyalkylene oxides, provides materials that can be engineered to afford controllable curing time, biodegradation and/or swelling.

Abstract: An endovascular device for occluding a vascular aneurysm is disclosed. The device includes a polymeric shell member that, in one embodiment, may be constructed from a bioactive and biocompatible polyurethane-diol-glycosaminoglycan copolymer, and a liquid embolic agent. The copolymer is sufficiently flexible and strong for endovascular delivery into a vascular aneurysm and for use as a polymeric shell for receiving the liquid embolic agent. Upon activation inside of the polymeric shell within the aneurysm, the liquid embolic agent solidifies enabling biological isolation of the aneurysm and improved patient outcomes.

Abstract: An endovascular device for occluding a vascular aneurysm is disclosed. The device includes a polymeric shell member that, in one embodiment, may be constructed from a bioactive and biocompatible polyurethane-diol-glycosaminoglycan copolymer, and a biocompatible metallic frame member. The copolymer is sufficiently flexible and strong for endovascular delivery into a vascular aneurysm and for use as a polymeric shell for receiving the biocompatible metallic frame member. The biometallic frame member may include one or more components constructed from a NiTi alloy.

Abstract: A bioactive and biocompatible polyurethane-butanediol-glycosaminoglycan copolymer for use in medical implant devices. The biocompatible urethane component being the reaction product of 4,4?-methylene-di-(p-phenyl isocyanate) and poly(tetramethylene oxide)n and further reacted with 1,4-butanediol, wherein n=10 to 40. The bioactive glycosaminoglycan being a salt of hyaluronic acid, such as a cetylpyridinium salt acid having 5 to 10,000 repeating units or a salt of heparin, such as a dimethyldioctadecylammonium salt of heparin has 5 to 65 repeating units or a suitable salt of dermatan sulfate. The weight content of the bioactive glycosaminoglycan is an amount sufficient to render the copolymer bioactive. The copolymers described herein have excellent hemocompatibility and biocompatibility.