The present invention relates to improved clot retrieval devices, wherein at least the part of the device intended to be in contact with a clot is coated with at least one chromatin binding agent selected from the group consisting of digoxigenin, a digoxigenin derivative, distamycin and a distamycin derivative. The present invention also relates to a method of producing said improved clot retrieval device. The present invention also relates to a method of prevention and/or treatment of stroke in a subject, comprising removing at least one clot using the clot retrieval device coated with said least one chromatin binding agent.

Wound dressings comprising absorbable polyelectrolyte material and ionic crystals and methods of making the same are provided. The weight percent of ionic crystals in the polyelectrolyte materials can be adjusted for desired uses of the wound dressings.

Disclosed are nasal dressings and nasal stents comprising a collagen foam. Also disclosed are methods of making and using such nasal dressings and nasal stents. In an embodiment, a nasal dressing or nasal stent is formed by a method comprising the steps of: forming an aqueous mixture of from 5 to 25 wt % of acid-soluble collagen and from 75 to 95 wt % of collagen fibers, both based on the total solids content of the aqueous mixture, placing the aqueous mixture into a mold, freeze-drying the aqueous mixture while in the mold, thereby forming a collagen foam, and cross-linking the collagen foam.

The present disclosure provides an ophthalmic article. The ophthalmic article may comprise a biocompatible matrix comprising a copolymer derived from a caprolactone monomer and at least one other monomer. The ophthalmic article may also comprise an active agent or a diagnostic agent. The ophthalmic article may be configured to associate to a haptic of an intraocular lens (IOL).

A nanoglue is formed with one or more bioadhesive polymers, one or more dendrimers, and optionally one or more therapeutic, prophylactic, or diagnostic agents. The bioadhesive polymers and dendrimers are modified with functional groups to permit crosslinking upon one or more stimuli, e.g., ultraviolet irradiation, and form hydrogel in situ at tissue sites. In the repair of corneal wounds, the nanoglue leads to improved rate of healing with less scarring and less inflammation, compared to non-treated cornea or ones treated with sutures. Therapeutic agents can be covalently conjugated to the precursor components and be delivered to specific eye compartments, providing a more efficacious treatment formulation of ocular disorders than delivering drugs in their free forms. Methods of making and using the hydrogel and hydrogel precursor compositions are also provided.

Provided is a compression resistant implant configured to fit at or near a bone defect to promote bone growth. The compression resistant implant comprises a biodegradable polymer in an amount of about 0.1 wt % to about 20 wt % of the implant and a freeze-dried oxysterol in an amount of about 5 wt % to about 90 wt % of the implant. Methods of making and use are further provided.

Provided is a compression resistant implant configured to fit at or near a bone defect to promote bone growth, the compression resistant implant comprising porous ceramic particles in a biodegradable polymer, and an oxysterol disposed in or on the compression resistant implant. Methods of making and use are further provided.

This disclosure describes, inter alia, materials, devices, kits and methods that may be used to treat chronic sinusitis. More specifically, a drug-eluting scaffold is implanted in the middle meatus to treat chronic sinusitis for weeks to months.

This disclosure describes, inter alia, materials, devices, kits and methods that may be used to treat chronic sinusitis. More specifically, a drug-eluting scaffold is implanted in the middle meatus to treat chronic sinusitis for weeks to months.

A coating for an expandable portion of a catheter comprising a lipophilic matrix and a plurality of micro-reservoirs dispersed in the lipophilic matrix is disclosed. The plurality of micro-reservoirs comprises an active agent. A coating formulation and a method for forming the coating are also disclosed. A catheter comprising the coating on the expandable portion and a method for treating a condition are also provided.