Methods for forming and incorporating microparticles containing one or more active agents into adhesives are described. The methods involve spray drying a liquid of the one or more active agents and obtaining the active agent in a particulate form. The dry powder is then blended or otherwise incorporated with the adhesive of interest. Also described are various medical products utilizing the adhesive and one or more active agents in microparticle form, and related methods of use.

A composition for treating a wound includes graphene oxide (GO) and hyaluronic acid (HA) that are covalently linked, XAV939, and water. The composition can also include a surfactant, such as PEG. The composition can be topically administered to a subject to treat a wound of the subject. Methods of treating a wound using the composition are also provided.

Disclosed herein is a non-flowable and deformable hemostatic compositions comprised of a xerogel crosslinked powdered polysaccharide dispersed within a substantially anhydrous blend of: glycerol, and polyethylene glycol (PEG), wherein the PEG and glycerol are present in a ratio ranging from higher than 1:1.3: to below 1:2.7 by weight, respectively, and wherein the powder content in the composition is above 50%, by weight. Methods of making the non-flowable compositions, and uses of the compositions in methods for treating a wound or a bleeding tissue, such as bone tissue, are further disclosed.

The present invention provides for nanostructured fibrin and agarose hydrogels, preferably type VII agarose hydrogels, (NFAH) or non-nanostructured or pre-nanostructured fibrin and agarose hydrogels, preferably type VII agarose hydrogels, (FAH), as hemostatic agents designed for use as an adjunct or primary treatment in moderate intraoperative hemorrhage and in trauma. These hydrogels can be applied topically to the wound either on the skin in a laparotomy or as non-invasive manner in surgical procedures. Its nanostructure technology generates an adhesive stable fibrin clot required for hemostasis. The attachment properties of the hydrogel, as well as the rapid formation of a fibrin clot, ensures that a strong stable fibrin clot is formed shortly after application.

The invention provides antimicrobial compositions comprising charged cellulose nanofibrils dispersed in an aqueous solution having a dissolved oxygen content of at least 20 mg/L, preferably from 20 to 100 mg/L. The cellulose nanofibrils may have an increased surface charge due to their carboxylic acid content which contributes to their antimicrobial properties. In particular, the carboxylic acid content may be at least about 1000 μmol/g cellulose, preferably at least about 1400 μmol/g cellulose. The compositions are suitable for use in the treatment of wounds, in particular chronic wounds.

This invention reveals the potential applications of modified porcine plasma fibronectin that could be applied as a safe material for clinical wound healing and tissue repair. In order to seek safe sources of plasma fibronectin for practical consideration in wound dressing, this invention isolated and modified fibronectin from porcine plasma and demonstrated that modified porcine plasma fibronectin has similar ability as homo plasma fibronectin being as a suitable substrate for stimulation of cell adhesion and directed cell migration. The present invention also reveals a material and a pharmaceutical composition enhance wound healing.

In various aspects, the present disclosure pertains to methods of treating or preventing bleeding at a tissue site comprising applying a chitosan powder composition to the tissue site. In various aspects, the present disclosure pertains to chitosan powder compositions for application to a tissue site, where the powder compositions comprise a chitosan salt, a crosslinked chitosan, a derivatized chitosan, or a combination thereof. In various aspects, the disclosure pertains to catheter assemblies, which are preloaded with a chitosan powder composition and which are configured to deliver the chitosan powder composition a tissue site.

A method of treating, reducing or preventing bacterial infection in a wound, the method comprising: applying a film on the wound, the film including a biodegradable polymer with bacteriophages dispersed therein, wherein the polymer is a poly (ester amide urea).

Provided herein are in vivo gelling ophthalmic pre-formulations forming a biocompatible retinal patch comprising at least one nucleophilic compound or monomer unit, at least one electrophilic compound or monomer unit, and optionally a therapeutic agent and/or viscosity enhancer. In some embodiments, the retinal patch at least partially adheres to the site of a retinal tear. Also provided herein are methods of treating retinal detachment by delivering an in vivo gelling ophthalmic pre-formulation to the site of a retinal tear in human eye, wherein the in vivo gelling ophthalmic pre-formulation forms a retinal patch.

A three-dimensional network aqueous gel and a manufacturing method thereof are disclosed. A water-soluble polymer is first added into a solvent and uniformly mixed, followed by hydrolysis to form a sol, and vacuum is applied to convert the sol into a gel, followed by a polycondensation reaction to form a three-dimensional network aqueous gel. The three-dimensional network aqueous gel is formed of the water-soluble polymer that includes a group including sodium alginate and sodium carboxymethyl cellulose. The water-soluble polymer is interconnected to form a three-dimensional network structure. The three-dimensional network aqueous gel is of a gel-enclosed form, which uses the three-dimensional network structure formed of a high-molecule polymer to enclose medicine, so as to more effectively protect the active ingredient and provide an effect of controlled released to thereby extend therapeutic period and reduce side effects of irritating skin.