Abstract: Disclosed are methods of treating an aneurysm in a subject comprising administering to the subject a therapeutically effective amount of a composition comprising a SELP. Disclosed are methods of preventing rupture of an aneurysm comprising administering to a subject having an aneurysm a composition comprising a SELP, wherein the SELP is present in the aneurysm and prevents rupture. Also disclosed are methods of embolizing an aneurysm in a subject comprising administering to the subject a therapeutically effective amount of a composition comprising SEEP. Disclosed are methods of treating AVM in a subject comprising administering to the subject a composition comprising a SELP. In some aspects, the SELP embolizes an abnormal blood vessel in the AVM. Disclosed are methods of embolizing an AVM in a subject comprising administering to the subject a therapeutically effective amount of a composition comprising a SELP, wherein the SELP embolizes an abnormal blood vessel in the AVM.

Abstract: Described herein are in situ gelling compositions. The compositions include an anti-inflammatory polysaccharide and a gelling polymer, wherein the composition is a liquid prior to administration to a subject but converts to a gel upon administration to the subject. The compositions described herein have numerous applications with respect to the local treatment (reduction or prevention) of inflammation and/or tissue damage.

Abstract: Described herein are chemoembolic compositions and agents. The compositions include one or more anti-cancer agents and a silk-elastinlike protein polymer, wherein the compositions are liquids prior to administration to a subject but convert to hydrogels upon administration to the subject. Administration of the Chemoembolic compositions to tumor and/or tumor vasculature in a subject having cancer can result in reduced or inhibited blood flow to the tumor as well as localized, sustained release of the anti-cancer agent in the vicinity of the tumor. Reduction in blood flow, in turn, results in a reduction of tumor volume and/or inhibition of tumor growth, while localized release of the anti-cancer agent results in reduced systemic effects and lower overall toxicity of treatment with the compositions.

Abstract: Described herein are chemoembolic compositions and agents. The compositions include one or more anti-cancer agents and a silk-elastinlike protein polymer, wherein the compositions are liquids prior to administration to a subject but convert to hydrogels upon administration to the subject. Administration of the chemoembolic compositions to tumor and/or tumor vasculature in a subject having cancer can result in reduced or inhibited blood flow to the tumor as well as localized, sustained release of the anti-cancer agent in the vicinity of the tumor. Reduction in blood flow, in turn, results in a reduction of tumor volume and/or inhibition of tumor growth, while localized release of the anti-cancer agent results in reduced systemic effects and lower overall toxicity of treatment with the compositions.

Abstract: Methods for producing viruses from adherent cells are provided. The methods include releasing virus from adherent host cells grown in a bioreactor, and purifying released virus by ultrafiltration and/or diafiltration. The methods can be used to manufacture viruses, including for clinical use, at reduced cost relative to conventional virus manufacturing methods.

Abstract: Described herein are in situ gelling compositions. The compositions include an anti-inflammatory polysaccharide and a gelling polymer, wherein the composition is a liquid prior to administration to a subject but converts to a gel upon administration to the subject. The compositions described herein have numerous applications with respect to the local treatment (reduction or prevention) of inflammation and/or tissue damage.

Abstract: A delivery system that includes a recombinantly synthesized protein polymer with protease cleavage sites such as matrix metalloproteinase responsive sequences engineered within the protein polymer. The system may be used to treat cancer, wounds, or pathological conditions in other tissues that express excess protease relative to healthy tissue.

Abstract: Provided are adjunct therapies for use in combinations and compositions with an oncolytic virus, such as a vaccinia virus. The adjunct therapies include co-administration and co-formulation of a complement inhibitor and/or a lipid emulsion composition with the oncolytic virus. Also provided herein are therapeutic methods using the adjunct therapies for treatment of disease and conditions employing an oncolytic therapeutic virus, such as for the treatment of hyperproliferative diseases or conditions including tumors or cancers.

Abstract: Described herein are chemoembolic compositions and agents. The compositions include one or more anti-cancer agents and a silk-elastinlike protein polymer, wherein the compositions are liquids prior to administration to a subject but convert to hydrogels upon administration to the subject. Administration of the chemoembolic compositions to tumor and/or tumor vasculature in a subject having cancer can result in reduced or inhibited blood flow to the tumor as well as localized, sustained release of the anti-cancer agent in the vicinity of the tumor. Reduction in blood flow, in turn, results in a reduction of tumor volume and/or inhibition of tumor growth, while localized release of the anti-cancer agent results in reduced systemic effects and lower overall toxicity of treatment with the compositions.

Abstract: A chemoembolic agent is disclosed that includes an injectable, recombinantly synthesized silk-elastin like protein copolymer and one or more chemotherapeutic agents. Upon injection, the chemoembolic agent blocks the tumor vasculature, including the capillary bed, and may optionally release chemotherapeutic agents. The chemoembolic agent may be used to treat cancer, including hepatocellular carcinoma.

Abstract: Provided are adjunct therapies for use in combinations and compositions with an oncolytic virus, such as a vaccinia virus. The adjunct therapies include co-administration and co-formulation of a complement inhibitor and/or a lipid emulsion composition with the oncolytic virus. Also provided herein are therapeutic methods using the adjunct therapies for treatment of disease and conditions employing an oncolytic therapeutic virus, such as for the treatment of hyperproliferative diseases or conditions including tumors or cancers.

Abstract: A chemoembolic agent is disclosed that includes an injectable, recombinantly synthesized silk-elastin like protein copolymer and one or more chemotherapeutic agents. Upon injection, the chemoembolic agent blocks the tumor vasculature, including the capillary bed, and may optionally release chemotherapeutic agents. The chemoembolic agent may be used to treat cancer, including hepatocellular carcinoma.

Abstract: A delivery system that includes a recombinantly synthesized protein polymer with protease cleavage sites such as matrix metalloproteinase responsive sequences engineered within the protein polymer. The system may be used to treat cancer, wounds, or pathological conditions in other tissues that express excess protease relative to healthy tissue.

Abstract: A chemoembolic agent is disclosed that includes an injectable, recombinantly synthesized silk-elastin like protein copolymer and one or more chemotherapeutic agents. Upon injection, the chemoembolic agent blocks the tumor vasculature, including the capillary bed, and may optionally release chemotherapeutic agents. The chemoembolic agent may be used to treat cancer, including hepatocellular carcinoma.

Abstract: Novel polypeptides comprising repetitive units of amino acids, as well as synthetic genes encoding the subject polypeptides are provided. The subject polypeptides are characterized by comprising repetitive units of amino acids, where the repetitive units are present in naturally occurring proteins, particularly naturally occurring structural proteins. The subject polypeptides find use in a variety of applications, such as structural components of prosthetic devices, synthetic fibers, and the like.

Abstract: Novel polypeptides comprising repetitive units of amino acids, as well as synthetic genes encoding the subject polypeptides are provided. The subject polypeptides are characterized by comprising repetitive units of amino acids, where the repetitive units are present in naturally occurring proteins, particularly naturally occurring structural proteins. The subject polypeptides find use in a variety of applications, such as structural components of prosthetic devices, synthetic fibers, and the like.

Abstract: Methods of treating body tissue including repairing defects in body tissue as well as augmenting body tissue. Body tissue defects are repaired by injecting a polymeric adhesive composition through an injector into the region of the defect and allowing the adhesive composition to cure to repair the defect or to form an implant that adheres to at least one surface tissue in the region of the defect. Body tissue is augmented by filling a defect void with a polymeric adhesive composition and allowing it to cure.

Abstract: Methods of treating body tissue including repairing defects in body tissue as well as augmenting body tissue. Body tissue defects are repaired by injecting a polymeric adhesive composition through an injector into the region of the defect and allowing the adhesive composition to cure to repair the defect or to form an implant that adheres to at least one surface tissue in the region of the defect. Body tissue is augmented by filling a defect void with a polymeric adhesive composition and allowing it to cure.

Abstract: Proteinaceous polymers having repetitive units from naturally occurring structural proteins are employed as backbones for functionalities for crosslinking to provide strongly adherent tissue adhesives and sealants. Particularly, block copolymers of elastin and fibroin are employed having lysine substitutions in spaced apart units, where the amino group can be crosslinked using difunctional crosslinking agents.

Abstract: Methods of treating body tissue including repairing defects in body tissue as well as augmenting body tissue. Body tissue defects are repaired by injecting a polymeric adhesive composition through an injector into the region of the defect and allowing the adhesive composition to cure to repair the defect or to form an implant that adheres to at least one surface tissue in the region of the defect. Body tissue is augmented by filling a defect void with a polymeric adhesive composition and allowing it to cure.