Methods of preparing protein films in the presence of organofluorine compounds are provided that can produce protein films that retain the solution phase characteristics of the proteins. The protein films can be coatings for medical devices.

Methods of preparing protein films in the presence of organofluorine compounds are provided that can produce protein films that retain the solution phase characteristics of the proteins. The protein films can be coatings for medical devices.

Therapeutic compositions and/or formulations are provided, comprising: at least one cross-linked protein matrix, wherein the at least one cross-linked protein matrix comprises at least one protein residue and at least one saccharide-containing residue, and methods of producing the same. The cross-linked protein matrix may be derived from cross-linking a full length or substantially full length protein, such as tropoelastin, elastin, albumin, collagen, collagen monomers, immunoglobulins, insulin, and/or derivatives or combinations thereof, with a saccharide containing cross-linking agent, such as a polysaccharide cross-linking agent derived from, for example, hyaluronic acid or a cellulose derivative. The therapeutic compositions may be administered topically or by injection. The present disclosure also provides methods, systems, and/or kits for the preparation and/or formulation of the compositions disclosed herein.

Therapeutic compositions and/or formulations are provided, comprising: at least one cross-linked protein matrix, wherein the at least one cross-linked protein matrix comprises at least one protein residue and at least one saccharide-containing residue, and methods of producing the same. The cross-linked protein matrix may be derived from cross-linking a full length or substantially full length protein, such as tropoelastin, elastin, albumin, collagen, collagen monomers, immunoglobulins, insulin, and/or derivatives or combinations thereof, with a saccharide containing cross-linking agent, such as a polysaccharide cross-linking agent derived from, for example, hyaluronic acid or a cellulose derivative. The therapeutic compositions may be administered topically or by injection. The present disclosure also provides methods, systems, and/or kits for the preparation and/or formulation of the compositions disclosed herein.

A hydrogel material for modulating an immune response in a human subject or other mammal includes a collection of microgel particles having one or more network cross linker components, wherein the microgel particles, when exposed to an endogenous or exogenous annealing agent, links the microgel particles together in situ to form a covalently-stabilized scaffold of microgel particles having interstitial spaces formed between the microgel particles and wherein the collection of microgel particles further includes at least one of an antigen and an adjuvant.

A hydrogel material for modulating an immune response in a human subject or other mammal includes a collection of microgel particles having one or more network cross linker components, wherein the microgel particles, when exposed to an endogenous or exogenous annealing agent, links the microgel particles together in situ to form a covalently-stabilized scaffold of microgel particles having interstitial spaces formed between the microgel particles and wherein the collection of microgel particles further includes at least one of an antigen and an adjuvant.

A hydrogel material for use in a human subject or other mammal includes a collection of microgel particles having one or more network cross linker components, wherein the microgel particles, when exposed to an endogenous or exogenous annealing agent, links the microgel particles together in situ to form a covalently-stabilized scaffold of microgel particles having pores formed between the microgel particles wherein the pores are substantially devoid of hydrogel.

A hydrogel material for use in a human subject or other mammal includes a collection of microgel particles having one or more network cross linker components, wherein the microgel particles, when exposed to an endogenous or exogenous annealing agent, links the microgel particles together in situ to form a covalently-stabilized scaffold of microgel particles having pores formed between the microgel particles wherein the pores are substantially devoid of hydrogel.

A method of coating a polymer surface, the method comprising: providing a polymer having a surface, optionally, treating at least a portion of the polymer surface with an oxidising agent, treating at least a portion of the polymer surface with a composition comprising a polysaccharide, oligosaccharide, polyol or mixture thereof, and incubating the treated polymer with the composition for a predetermined time. Also disclosed are polymers comprising such a coating, vessels comprising such coated polymers and medicals devices comprising such polymers.

Binders to produce or promote cohesion in non-assembled or loosely assembled matter.