Hydrogels comprising a macromolecular matrix and water may be used to augment soft tissue of a human being, promote or support cell or tissue viability or proliferation, create space in tissue, and for other purposes. A macromolecular matrix may comprise a hyaluronic acid component crosslinked to a silk fibroin component.

Hydrogels comprising a macromolecular matrix and water may be used to augment soft tissue of a human being, promote or support cell or tissue viability or proliferation, create space in tissue, and for other purposes. A macromolecular matrix may comprise a hyaluronic acid component crosslinked to a silk fibroin component.

Polymeric materials are provided that are produced from a blend of hydrophilic and hydrophobic biodegradable polymers. The polymeric materials can form fibers, nonwoven fabrics, films, coatings, etc. A compound can be incorporated in the polymeric materials. The delivery of the compound can be controlled by diffusion of the compound from the polymeric material and during biodegradation of the polymeric material. The release rate is controlled by varying the composition of the polymeric material to control diffusion rates of the compound and/or biodegradation rate of the polymeric material. This technology provides methods for delivering and controlling release rates of pesticides and related compounds in agricultural and non-agricultural settings. When adhered to plants or plant parts, the polymeric materials can provide protection from insect and disease pests. In pellet or capsule form, pesticides can be delivered into seed furrows along with crop seeds, providing similar protection.

Polymeric materials are provided that are produced from a blend of hydrophilic and hydrophobic biodegradable polymers. The polymeric materials can form fibers, nonwoven fabrics, films, coatings, etc. A compound can be incorporated in the polymeric materials. The delivery of the compound can be controlled by diffusion of the compound from the polymeric material and during biodegradation of the polymeric material. The release rate is controlled by varying the composition of the polymeric material to control diffusion rates of the compound and/or biodegradation rate of the polymeric material. This technology provides methods for delivering and controlling release rates of pesticides and related compounds in agricultural and non-agricultural settings. When adhered to plants or plant parts, the polymeric materials can provide protection from insect and disease pests. In pellet or capsule form, pesticides can be delivered into seed furrows along with crop seeds, providing similar protection.

The disclosure herein relates to photoinitiated dermal fillers, hyaluronic acid-rhCollagen double crosslinked dermal fillers and hyaluronic acid-rhCollagen semi interpenetrated network, each comprising plant-derived human collagen, as well as methods of using the same.

The disclosure herein relates to photoinitiated dermal fillers, hyaluronic acid-rhCollagen double crosslinked dermal fillers and hyaluronic acid-rhCollagen semi interpenetrated network, each comprising plant-derived human collagen, as well as methods of using the same.

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.

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.

Dental etchant compositions, processes for making the same, and methods for using the dental etchant compositions are disclosed. The dental etchant compositions include at least one acid and one or more dentin collagen cross-linking agents. The methods for using the dental etchant compositions may include contacting a mammal's tooth with a dental etchant composition that includes one or more acids and one or more dentin collagen cross-linking agents.

Dental etchant compositions, processes for making the same, and methods for using the dental etchant compositions are disclosed. The dental etchant compositions include at least one acid and one or more dentin collagen cross-linking agents. The methods for using the dental etchant compositions may include contacting a mammal's tooth with a dental etchant composition that includes one or more acids and one or more dentin collagen cross-linking agents.