Described herewith are compositions comprising placental growth factors and methods for non-surgical, localized delivery thereof. The composition is delivered to a diseased or injured organ and/or body part and is formulated in a manner which allows for localized retention of the composition at the site of delivery.

The present invention relates to a wound covering with prominent biocompatible and accelerated wound-healing and its preparation method thereof. The wound covering comprises a film prepared from collagen and Dopa-containing protein—mussel adhesive protein, which is immobilized on collagen by chemical cross-linking, thus enhances the stability of protein structure and maintains the activity of collagen and mussel adhesive protein. The wound covering has excellent mechanical strength and can be trimmed into any shape; it accelerates tissue epithelisation and promotes wound healing with good biocompatibility, non-adhesive to the wound and no further wound damages.

One embodiment of the present invention provides a nonwoven fabric containing silk fibers in which an abs intensity ratio [abs (1650)/abs (1620)], which is a ratio of an intensity of a peak positioned in a vicinity of 1650 cm.sup.−1 [abs (1650)] in an infrared absorption spectrum to an intensity of a peak positioned in a vicinity of 1620 cm.sup.−1 [abs (1620)] in an infrared absorption spectrum, is larger than 0.65 and 1.90 or less, and a method for producing the nonwoven fabric containing silk fibers.

One embodiment of the present invention provides a nonwoven fabric containing silk fibers in which an abs intensity ratio [abs (1650)/abs (1620)], which is a ratio of an intensity of a peak positioned in a vicinity of 1650 cm.sup.−1 [abs (1650)] in an infrared absorption spectrum to an intensity of a peak positioned in a vicinity of 1620 cm.sup.−1 [abs (1620)] in an infrared absorption spectrum, is larger than 0.65 and 1.90 or less, and a method for producing the nonwoven fabric containing silk fibers.

Glucocorticoid-induced leucine zipper protein (GILZ) peptide compositions and their methods of use in wound healing are disclosed herein. An exemplary GILZ peptide composition includes a GILZ fusion protein. The GILZ peptide compositions can be administered topically to wounds, for example in the form of a cream, ointment, or lotion. The GILZ peptide compositions can be used to treat acute wounds, induce wound healing in chronic wounds, and reduce scar formation.

Disclosed herein are matrices, compositions and methods of making matrices. The matrix comprises a biomolecule and the matrix is a dried, cross-linked foam. The matrix is not lyophilized. The method comprises foaming the composition, crosslinking the composition and drying the composition. Matrices disclosed herein are useful as wound dressings and treating wounds.

Disclosed herein are matrices, compositions and methods of making matrices. The matrix comprises a biomolecule and the matrix is a dried, cross-linked foam. The matrix is not lyophilized. The method comprises foaming the composition, crosslinking the composition and drying the composition. Matrices disclosed herein are useful as wound dressings and treating wounds.

Disclosed is an external wound dressing formed of a bioprotein scaffolding that may include a pressure-sensitive adhesive impregnated in the bioprotein scaffolding. A method of wound treatment can include adhering an external wound dressing formed of a bioprotein scaffolding to an external injury site. Another method can include applying an adhesive to the skin of a patient, placing an external wound dressing formed of a bioprotein scaffolding over an injury site on the skin of the patient, and applying a sealing adhesive on top of the bioprotein scaffolding. Yet another method can include applying an adhesive to the skin of a patient, placing an external wound dressing formed of a bioprotein scaffolding over an injury site on the skin of the patient that has not been stitched, and applying a sealing adhesive on top of the bioprotein scaffolding.

Disclosed is an external wound dressing formed of a bioprotein scaffolding that may include a pressure-sensitive adhesive impregnated in the bioprotein scaffolding. A method of wound treatment can include adhering an external wound dressing formed of a bioprotein scaffolding to an external injury site. Another method can include applying an adhesive to the skin of a patient, placing an external wound dressing formed of a bioprotein scaffolding over an injury site on the skin of the patient, and applying a sealing adhesive on top of the bioprotein scaffolding. Yet another method can include applying an adhesive to the skin of a patient, placing an external wound dressing formed of a bioprotein scaffolding over an injury site on the skin of the patient that has not been stitched, and applying a sealing adhesive on top of the bioprotein scaffolding.

The present disclosure relates generally to wound dressing compositions that include a β-glucan which can stimulate an immunomodulatory effect on cells within a wound, increase the healing rate of a wound, and stimulate the healing of recalcitrant wounds. The wound dressing includes a mixture of a collagen, a polysaccharide, and a β-glucan. Also disclosed herein are methods for use of the wound dressing as well as kits including the wound dressings of the present technology.