The present invention relates to articles of manufacture having a formulation distributed therein, wherein the formulation comprises an active agent which manifests a desirable property when released from the articles of manufacture. The present invention also relates to methods for manufacturing these articles of manufacture, to vehicles for applying the formulation to these articles of manufacture, and to perception indicators indicating the presence and the amount of formulation comprising an active agent applied to an article of manufacture.

A composite material can include a gel and at least one nanostructure disposed within the gel. A method for healing a soft tissue defect can include applying a composite material to a soft tissue defect, wherein the composite material includes a gel and a nanostructure disposed within the gel. A method for manufacturing a composite material for use in healing soft tissue defects can include providing a gel and disposing nanofibers within the gel.

One aspect of the invention provides a method of treating a chronic wound including administering to the wound at least one agent from a delivery system wherein the agent induces sequential conversion of a first population of wound macrophages in the wound to M2A macrophages and a second population of wound macrophages to M2C macrophages. The sequential conversion of the wound macrophages promotes tissue remodeling.

Disclosed herein is a drug-coated medical device in the form of a balloon having an inner surface and an outer hydrophobic surface, an adhesion balance layer directly on the outer hydrophobic surface of the balloon, comprising a hydrophilic polymer and/or a hydrophilic compound where the hydrophilic compound has a molecular weight of less than 1,000 Daltons, and a therapeutic layer directly on the adhesion balance layer comprising a therapeutic agent and a pharmaceutically acceptable carrier, wherein the therapeutic agent is a hydrophobic therapeutic agent with one or more hydrogen-bonding groups and is provided as discrete drug particles in the therapeutic layer, the drug particles have at least one dimension that is less than 25 m and are uniformly distributed on the surface of the balloon, and the pharmaceutically acceptable carrier is hydrophilic and has a molecular weight of less than 1,000 Daltons. A process to make the drug-coated medical device and uses thereof are also disclosed.

Provided are prophylactic and therapeutic methods of treatment of subjects for the purpose of inhibiting vaso-occlusive events, including embolism, by administering agents, including anagrelide and anagrelide derivatives, which reduce the number of circulating platelets to low normal or to below normal levels. Methods and pharmaceutical preparations comprising such agents are provided.

Disclosed are compositions and methods of treating prostate cancer. The compositions include biocompatible and resorbable hydrogel embolization microspheres that contain a contrast agent, a hormone therapy, and a chemotherapeutic agent.

The present disclosure relates to formulations for coating a balloon of a balloon catheter, the formulations including one or more groups of microparticles that include a therapeutic agent. In some aspects, the microparticles are polymer microparticles with the therapeutic dispersed therein or crystalline microparticles of the therapeutic agent. In some aspects, the formulations further include an antioxidant and/or an excipient.

Disclosed herein are methods of treating an article surface. The method comprises removing a metal oxide surface from the metal substrate to expose a metal surface; and delivering particles comprising a dopant from at least one fluid jet to the metal surface to impregnate the surface of the article with the dopant. The method also comprises delivering substantially simultaneously a first set of particles comprising a dopant and a second set of particles comprising an abrasive from at least one fluid jet to a surface of an article to impregnate the surface of the article with the dopant.

Provided herein is a biocompatible device comprising a body structure and a wound-healing-enhancing agent in a wound-healing-enhancing effective amount, wherein the wound-healing-enhancing agent is embedded within the body structure or coated on the body structure. An example of the device is a surgical suture. Methods of fabricating and using the device are also provided.

A formulation including at least one silver oxide including a silver(II) oxide, the silver(II) oxide having an irregular macrocrystal structure, the silver oxide having an average particle size (D.sub.50) below 8 micrometers, the irregular macrocrystal structure characterized by a diffraction peak in a {111} diffraction plane having at least one of the following structural properties: (i) a measured full width half maximum (FWHM) of the peak being at least 0.24 degrees of 2; and (ii) a net full width half maximum (net FWHM) of the peak being at least 0.14 degrees of 2.