Methods and devices are provided for promoting wound healing. In general, surgical staplers and staple components are provided having an effective amount of at least one broad spectrum matrix metalloproteinase (MMP) inhibitor being effective to prevent MMP-mediated extracellular matrix degeneration during wound healing in tissue.

Methods and devices are provided for promoting wound healing. In general, surgical staplers and staple components are provided having an effective amount of at least matrix metalloproteinase (MMP) inhibitor being effective to prevent MMP-mediated extracellular matrix degeneration during wound healing in tissue.

The disclosure provides drug delivery devices and methods of making and using the drug delivery devices. The devices include single and multi-layer polymer films made by a breath figure technique having therapeutic agents associated therewith. For example, the devices may be a dual layer polymer film wherein the first layer includes a therapeutic agent incorporated into it by spin coating the first agent with a polymer solution and the second agent is incorporated into the second layer by loading the agent into pores of the second layer after it is spin coated onto the first layer. In some cases one layer provides a burst release and the second layer provides a slow release drug delivery profile. The devices may take on the form of a surgical mesh with a slow release therapeutic drug.

According to an illustrative embodiment a method to promote healing of a wound is provided comprising contacting the wound with a biologically active composition comprising a lipoic acid derivative and gelatin. In another embodiment a wound dressing is provided comprising a scaffold coated with a biologically active composition comprising a lipoic acid derivative. In a further embodiment, a system is provided for treating a tissue site of a patient, the system comprising a reduced-pressure source to supply reduced pressure, a manifold to distribute reduced pressure to a tissue site and a scaffold coated with a biologically active composition comprising a lipoic acid derivative. Methods for producing such a system and scaffold are also disclosed.

The invention concerns compositions comprising: (i) biocompatible hydrogel, comprising a plurality of cross-linkers connecting backbone components of the hydrogel; wherein the hydrogel is cross-linked utilizing a cross-linker comprising a peptide sequence that is capable of being degraded by a matrix metalloproteinase; said inhibitor being effective as a treatment of a condition related to the presence of the matrix metalloproteinase; wherein the hydrogel encapsulates and retains the inhibitor within the intact hydrogel through non-covalent interactions; wherein the hydrogel comprises one or more of hyaluronic acid, sulfated hyaluronic acid, sulfonated hyaluronic acid, dextran, dextran sulfate, sulfonated dextran, chondroitin sulfate, heparin and heparan sulfate; (ii) pentosan polysulfate (PPS) and (iii) optionally, a therapeutic agent comprising an inhibitor of matrix metalloproteinase.

Various exemplary matrix metalloproteinase (MMP) inhibiting adjuncts for surgical devices are provided. In general, an implantable adjunct can be configured to be applied to tissue by a surgical stapler in conjunction with staples. The adjunct can have at least one medicant releasably retained therein that is configured to reduce a length of the epithelialization process. In other words, the at least one medicant releasably retained in the adjunct can be configured to speed up an inflammation stage of wound healing and/or a proliferation stage of wound healing and, accordingly, reduce an amount of time before a remodeling stage of wound healing begins. The at least one medicant can be configured to be released along the staple line defined by the staples.

Disclosed herein are cohesive soft tissue fillers, for example, dermal and subdermal fillers, based on hyaluronic acids and optionally including proteins. In one aspect, hyaluronic acid-based compositions described herein include zero-length cross-linked moieties and optionally at least one active agent. The present hyaluronic acid-based compositions have enhanced flow characteristics, hardness, and persistence compared to known hyaluronic acid-based compositions. Methods and processes of preparing such hyaluronic acid-based compositions are also provided.

Embodiments of the invention relate generally to electrospun fibers and, more particularly, to the controlled release of an active pharmaceutical ingredient (API) from electrospun fiber scaffolds (EFSs).

Systems, methods, and devices are presented for treating a tissue site and managing hair proximate the tissue site. A composition is provided for inhibiting, removing, or weakening hair proximate the tissue site and for providing an improved fluid seal by a flexible film drape over the tissue site. In some example embodiments, a hair-modification agent is disposed at least proximate a peripheral edge of a treatment manifold between a drape and epidermis proximate a tissue site. The hair-modification agent can be configured to flow over imperfections on the epidermis and to form a fluid seal against the epidermis, and can further be configured to at least substantially weaken hair on the epidermis as the hair encounters the hair-modification agent.

A method for obtaining epithelial organoids is provided. In one embodiment, the method comprises culturing one or more epithelial ducts, epithelial duct fragments and/or epithelial stem cells isolated therefrom in contact with an extracellular matrix in the presence of a basal medium, wherein the medium is free of FGF and/or nicotinamide. Organoids obtained by the methods described herein, and uses thereof, are also provided.