Abstract: A variety of nitric oxide-releasing vascular grafts and prostheses are provided. Methods of making the nitric oxide-releasing vascular grafts and prostheses are also provided. Methods of administering the nitric oxide-releasing vascular grafts and prostheses to a subject in need thereof are also provided. The nitric oxide-releasing vascular grafts and prostheses have a base layer made of a graft material and a nitric oxide-releasing layer made from a polymer matrix including a plurality of polysiloxanes and a plurality of nitric oxide-donating crosslinking moieties covalently crosslinking polysiloxanes in the plurality of polysiloxanes. In some aspects, the vascular grafts and prostheses can provide for reduced infection rates and increased patency by providing for prolonged local delivery of nitric oxide when implanted in a vessel of a subject in need thereof.

Abstract: A novel treatment for dialysis patients needing a hemodialysis graft by providing a therapeutic formulation that can be infused to such patients, which may mitigate graft-related neointimal hyperplasia, thrombosis, and/or related mechanisms of graft failure. The therapeutic formulation may include sirolimus and/or other olimus drug(s). The therapeutic formulation may be infusible and stable in solution for such a pharmaceutical and therapeutic purpose. The therapeutic formulation may have a pharmaceutically acceptable shelf life such that the pharmaceutical agent remains chemically stable (e.g., does not precipitate) for a suitable number of days (e.g., at least 30 days, at least 60 days, at least 90 days, etc.) at 37° C. The therapeutic formulation may be suitable for application to a patient's blood vessel/vascular graft via an infusion pump. For instance, the therapeutic formulation may be suitable for application to the patient's hemodialysis graft location.

Abstract: The present technology relates to isolated MUC17, Muc3 or MUC3 derived polypeptides and polynucleotides encoding the same. The MUC17, Muc3 or MUC3 derived polypeptides and polynucleotides can be used to treat gastrointestinal tract diseases and disorders. Also described herein are pharmaceutical compositions comprising MUC17, Muc3 or MUC3 derived polypeptides and/or polynucleotides encoding the same alone or in combination along with a pharmaceutically acceptable carrier, diluent or excipient for the treatment of gastrointestinal disorders and diseases, including, irritable bowel disease and its associated colitides, for example, Crohn's Disease.

Abstract: Isolated MUC17, Muc3 or MUC3 derived polypeptides and polynucleotides encoding the same are described. The MUC17, Muc3 or MUC3 derived polypeptides, polynucleotides, and pharmaceutical compositions can be used to treat gastrointestinal tract diseases and disorders including, inflammatory bowel disease and its associated colitides, for example, Crohn's Disease.

Abstract: The present technology relates to isolated MUC17, Muc3 or MUC3 derived polypeptides and polynucleotides encoding the same. The MUC17, Muc3 or MUC3 derived polypeptides and polynucleotides can be used to treat gastrointestinal tract diseases and disorders. Also described herein are pharmaceutical compositions comprising MUC17, Muc3 or MUC3 derived polypeptides and/or polynucleotides encoding the same alone or in combination along with a pharmaceutically acceptable carrier, diluent or excipient for the treatment of gastrointestinal disorders and diseases, including, irritable bowel disease and its associated colitides, for example, Crohn's Disease.

Abstract: The present invention describes various devices and methods wherein a cytostatic antiproliferative drug, either alone or in combination with other drugs, is placed between internal body tissues to prevent the formation of scar tissue and/or adhesions during healing of a wound or surgical site. Specific devices to achieve this administration include, but are not limited to, a permanent implant or a biodegradable material having an attached antiproliferative drug such as sirolimus. These antiproliferative drugs may be combined with other drugs including, but not limited to, antiplatelets, antithrombotics or anticoagulants. The present invention also contemplates methods to a reduce scar tissue and/or adhesions or adhesion formation at an anastomosis site. In particular, a cytostatic antiproliferative drug is administered to an arteriovenous shunt anastomoses in patients having end-stage renal disease.

Abstract: The invention disclosed herein comprises methods for analyzing a biological sample, such as undiluted or diluted whole blood, as well as fractions thereof, for the presence or absence and/or the concentration of disease-specific and/or other medical condition-specific markers. Such markers may include platelet activation and coagulation activation markers. The methods may comprise combining the biological sample with a coated solid phase and analyzing for the presence or absence and/or the concentration of the markers. The analysis may be performed either before or after separation of the solid phase from the biological sample. The analysis may be performed on the combined components or on any of the separated components. A preferred solid phase may be paramagnetic microparticles coated with antibodies or proteins specific for platelet activation and/or coagulation activation markers.