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.

The present invention discloses a partially crosslinked hydrogels blended composition with enhanced viscosity and yield stress, which is formed by the polymerization of one or more colloid monomers through crosslinking. The polymerization is initiated by a photoinitiator under irradiation of the light of a specific wavelength, which promotes crosslinking of the one or more colloid monomers. The hydrogels blended composition can be further crosslinked with one or more other colloid monomers through repeated excitation of the photoinitiator. The hydrogels blended composition can be polymerized into a gel upon re-irradiation, and can also be used as a biomaterial for wound repair, three-dimensional cell culture, personal nursing care, health care, medical and pharmaceutical applications.

Described herein are wound dressing comprising a silicone hydrogel composition and optionally an antimicrobial agent, and methods of making and use thereof. The silicone hydrogel compositions comprise an actinically-crosslinkable polysiloxane-polyglycerol block copolymer crosslinked with a crosslinker. The actinically-crosslinkable polysiloxane-polyglycerol block copolymer being derived from: a polysiloxane prepolymer comprising a polyglycerol side chain, the polyglycerol side chain comprising an ethylenically unsaturated group covalently linked thereto, wherein the ethylenically unsaturated group is actinically curable.

The present application relates to a medical hydrogel comprising nanofibrillar cellulose, wherein the hydrogel has a viscosity in the range of 2500-9000 Pa.Math.s and a water retention value in the range of 30-100 g/g. The present application also relates to a method for preparing the medical hydrogel The present application relates to the medical hydrogel for use for treating wounds.

The present invention concerns a three-dimensional bipolymeric matrix deploying biological and biomechanical activity, able to neutralize the various physiopathological parameters involved in the development and worsening of skin lesions and/or sores, combining: a first polymeric network comprising first colloids (Col-1) bonded non-covalently to an unsulfated crosslinked polysaccharide; and a second polymeric network comprising second colloids (Col-2) bonded covalently or non-covalently to a sulfated polysaccharide.

Provided are methods, devices and compositions for reducing and/or inhibiting postsurgical tissue adhesion using a hydrogel film disposed onto a target tissue, thereby providing an adhesion barrier that remains over said target tissue for a prescribed period of time. In some embodiments, the hydrogel film is formed by the gelation of a pre-gel mixture applied onto the target tissue as a plurality of particles having an average maximum dimension, such as diameter, of at most about 500 μm. In some embodiments, the hydrogel film has a minimum storage modulus of 100 Pa. In some embodiments, the pre-gel mixture comprises an ECM digest having a collagen to carbohydrate ratio (by mass) of at least 70:1.

Provided are a novel crosslinked alginic acid, a crosslinked alginic acid structure, etc., by performing a crosslinking reaction using alginic acid derivatives represented by formula (I) and formula (II). As a result, a novel crosslinked alginic acid, crosslinked alginic acid structure, etc., are provided.

##STR00001##

The invention is to provide a hydrogen sulfide sustained releasing dressing and a manufacturing method thereof. The hydrogen sulfide sustained releasing dressing includes a hydrocolloid, a surfactant and sodium hydro sulfide. The manufacturing method includes (a) heating and stirring a hydrocolloid material; (b) adding a surfactant and sodium hydrosulfide into the hydrocolloid material; and (c) injecting the hydrocolloid material containing the surfactant and the sodium hydrosulfide into a mold for thermoforming a hydrogen sulfide sustained releasing dressing.

The present invention relates to a new multifunctional debridement and/or antifouling composition comprising H.sub.2O.sub.2 at a final concentration of between 0.1-5% v/v, and a composite hydrogel formulation comprising pluronic acid at a concentration of 10-40% w/v, wherein the composition is in liquid form at room temperature. The composition disclosed herein is antimicrobial and/or anti-inflammatory and is particular useful in periimplantitis treatment and implant health maintenance, in periodontitis and periodontal health and in wound care and chronic ulcer care.