Disclosed is a microneedle for dental material delivery, the microneedle including a needle body portion; an active ingredient coating portion configured to coat the surface of the needle body portion, and including an active ingredient transferred to the skin tissue within a mouth; and a base portion configured to couple with the needle body portion, and to bend along a skin shape within the mouth, wherein the base portion includes at least one of polyethylene (PE), polypropylene (PP), polytetrafluoroethylene (PTFE), polymethylmethacrylate (PMMA), ethylene vinyl acetate (EVA), polycaprolactone (PCL), polyurethane (PU), polyethylene terephthalate (PET), polyethylene glycol (PEG), polyvinyl alcohol (PVA), poly lactide (PLA), poly lactic-co-glycolic acid (PLGA), and polyglycolide (PGA).

Adhesive wound dressing that comprises an absorbent matrix (A) adhering to the central portion of a polyurethane backing (B) having an adhesive layer for the skin, said matrix (A) comprising: a. a breathable and porous polyethylene film at the end designed to come into contact with the wound; b. an absorbent layer made of non-woven fabric adjacent to film a), said absorbent layer consisting of: i. 60-65% viscose ii. 25-30% polyester iii. 5-15% polypropylene; c. a layer of polyethylene inserted between layer b) and a layer d. of hydrophobic polystyrene, the latter being in contact with the central portion of polyurethane backing (B); wherein matrix (A) is impregnated with a solution of one or more polysaccharides or the salts thereof.

The present invention relates to a composition for dermal injection which includes two or more types of cross-linked hyaluronic acid particles having different particle diameters and non-cross-linked hyaluronic acid. The composition for dermal injection according to the present invention satisfies viscosity, extrusion force, and viscoelasticity conditions for dermal injection, and an extrusion force deviation is low so that the user does not feel fatigue when the composition is injected into the dermal thereof. Also, the composition is excellent in viscoelasticity and tissue restoring ability, is maintained for a long period of time, allows rapid recovery because an initial swelling degree is low, and also is excellent in safety and stability in the body.

Described are ready-to-use injectable compositions comprising polymeric microspheres or microparticles of non-animal origin, a hydrogel comprising water and a cellulose-derivative gelling agent, and polysorbate 80. Further described are methods of using the ready-to-use injectable compositions for reparative or plastic surgery, esthetic dermatology, facial contouring, body contouring, and gingival augmentation.

The present disclosure provides compositions including alginate microspheres capable of self-degradation upon rehydration, the alginate microspheres comprising alginate, alginate lyase, and divalent metal ions. The present disclosure also provides methods of making compositions including alginate microspheres capable of self-degradation upon rehydration, comprising alginate, alginate lyase, and divalent metal ions. The present disclosure also provides methods of inducing an embolism in a subject in thereof, and syringes containing the compositions of the present disclosure for use in the methods thereof.

Methods for manufacturing drug delivery systems are provided. The drug delivery systems may include a substrate coated with at least one polymer and at least one active compound. The substrate may include yarns, yarn precursors, threads, filaments, fibers, and/or other suitable substrates. The methods may include applying a solution including a monomer and an active compound on the substrate. The methods may also include exposing the solution and the substrate to UV light to initiate polymerization of the solution. The substrate is further configured into a reversibly removable patch or section to deliver active compounds to a user. The garments, patches, and sections are configured to provide an amount of active even after repeated uses, wears, applications, and/or launderings and further provide for replacement.

The disclosure provides hyaluronic acid (HA) gel formulations and methods for treating the appearance of the skin. The formulations contain hyaluronic acid and at least one additional ingredient. Methods for treating lines, wrinkles, fibroblast depletions, and scars with the disclosed composition are provided as well.

Drug delivery devices are provided in which much of a drug payload within the device remains within an area proximal to a wall of the device through which the drug must pass for release of the drug from the device into a patient. In one case, the device may include a drug reservoir portion which has a drug reservoir lumen bounded by a reservoir wall having an inner surface; a drug located in the drug reservoir lumen; and a core region which does not comprise the drug, wherein the drug is disposed between the inner surface of the reservoir wall and the core region. The device may be elastically deformable between a first shape suited for insertion through a lumen into a body cavity of the patient and a second shape suited to retain the device within the body cavity.

Hemostatic devices for promoting blood clotting can include a substrate (e.g., gauze, textile, sponge, sponge matrix, one or more fibers, etc.), a hemostatic material disposed thereon such as kaolin clay, and a binder material such as crosslinked calcium alginate with a high guluronate monomer molar percentage disposed on the substrate to substantially retain the hemostatic material. When the device is used to treat a bleeding wound, at least a portion of the clay material comes into contact with blood to accelerate clotting. Moreover, when exposed to blood, the binder has low solubility and retains a majority of the clay material on the gauze. A bandage that can be applied to a bleeding wound to promote blood clotting includes a flexible substrate and a gauze substrate mounted thereon.

The present invention relates to an implantable device comprising a textile component at least partially coated with a host polymer coating, said host polymer coating comprises a polymer of cyclodextrin(s) and/or derivatives of cyclodextrin(s) and/or inclusion complex(es) of cyclodextrin and/or inclusion complex(es) of cyclodextrin derivatives. Advantageously, said textile component comprises multifilament yarns and/or spun yarns made of fibers, at least a part of the filaments and/or fibers each having a diameter less than or equal to 25 micrometers.