The present invention provides novel biomaterial compositions and methods having a technology to improve retention of hyaluronic acid (HA). The biomaterial compositions utilize small HA binding peptides and extracellular matrix binding (ECM) peptides that are tethered to synthetic biocompatible polymers. When tethered to the polymers, the peptide region allows the polymers to bind to HA and to tissues such as cartilage. The novel biomaterial compositions can be used to coat or chemically modify cartilage or tissues with a biologically compatible polymer having HA binding peptides, which allow HA to bind to the surface of the cartilage or tissues. Methods of using same are also provided.

The present invention provides novel biomaterial compositions and methods having a technology to improve retention of hyaluronic acid (HA). The biomaterial compositions utilize small HA binding peptides and extracellular matrix binding (ECM) peptides that are tethered to synthetic biocompatible polymers. When tethered to the polymers, the peptide region allows the polymers to bind to HA and to tissues such as cartilage. The novel biomaterial compositions can be used to coat or chemically modify cartilage or tissues with a biologically compatible polymer having HA binding peptides, which allow HA to bind to the surface of the cartilage or tissues. Methods of using same are also provided.

The disclosure relates to an ophthalmological instrument with a main body and at least one ligand (L) immobilized on the main body. In the implanted state of the ophthalmological implant, the ligand (L) binds and/or deactivates at least one fibrinogen and/or cytokine. The disclosure further relates to a method for producing an ophthalmological implant, and to a use of a ligand (L), via which at least one fibrinogen and/or cytokine is to be bound and/or deactivated in the implanted state of the ophthalmological implant, for producing an ophthalmological implant.

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.

Non-linear multiblock copolymer-drug conjugates for the treatment and prevention of diseases and disorders of the eye are provided. The polymer-drug conjugates can form nanoparticles, microparticles, and implants that are capable of effectively delivering therapeutic levels of one or more active agents for an extended period of time. Administration to the eye of an active agent in the form of a non-linear multiblock copolymer-drug conjugate produces decreased side effects when compared to administration of the active agent alone. Also provided are methods of treating intraocular neovascular diseases, such as wet age-related macular degeneration as well as diseases and disorders of the eye associated with inflammation, such as uveitis.

A flexible or elastic brachytherapy strand that includes an imaging marker and/or a therapeutic, diagnostic or prophylactic agent such as a drug in a biocompatible carrier that can be delivered to a subject upon implantation into the subject through the bore of a brachytherapy implantation needle has been developed. Strands can be formed as chains or continuous arrays of seeds up to 50 centimeters or more, with or without spacer material, flaccid, rigid, or flexible.

Non-linear multiblock copolymer-drug conjugates for the treatment and prevention of diseases and disorders of the eye are provided. The polymer-drug conjugates can form nanoparticles, microparticles, and implants that are capable of effectively delivering therapeutic levels of one or more active agents for an extended period of time. Administration to the eye of an active agent in the form of a non-linear multiblock copolymer-drug conjugate produces decreased side effects when compared to administration of the active agent alone. Also provided are methods of treating intraocular neovascular diseases, such as wet age-related macular degeneration as well as diseases and disorders of the eye associated with inflammation, such as uveitis.

The present disclosure relates to a thrombin-responsive closed-loop patch for prolonged heparin delivery in a feedback-controlled manner. The microneedle-based patch can sense the activated thrombin and subsequently release heparin to prevent coagulation in the blood flow. The patch can be transcutaneously inserted into skin without drug leaking and can sustainably regulate blood coagulation in response to thrombin.

There is described inter alia a medical device having a surface which comprises a coating layer, said coating layer being a biocompatible composition comprising an anti-coagulant entity capable of interacting with mammalian blood to prevent coagulation or thrombus formation, which anti-coagulant entity is covalently attached to said surface through a linker comprising a thioether.

Provided herein are methods for the production of native and reconstituted hyaluronan (HA) complexes containing pentraxin-3 (PTX3) and heavy chain 1 (HC1) of inter alpha inhibitor (II). Compositions containing the complexes and therapeutic methods using the complexes are provided. Combinations and kits for use in practicing the methods also are provided.