Abstract: A device that includes a scaffold composition and a bioactive composition with the bioactive composition being incorporated into or coated onto the scaffold composition such that the scaffold composition and/or a bioactive composition controls egress of a resident cell or progeny thereof. The devices mediate active recruitment, modification, and release of host cells from the material.

Abstract: Provided are fast relaxing hydrogels that are useful for regulating cell behavior and enhancing tissue regeneration, e.g., bone regeneration.

Abstract: The invention provides polymer compositions for cell and drug delivery.

Abstract: The invention features a composition comprising a self-healing interpenetrating network hydrogel comprising a first network and a second network. The first network comprises covalent crosslinks and the second network comprises ionic or physical crosslinks. For example, the first network comprises a polyacrylamide polymer and second network comprises an alginate polymer.

Abstract: The present invention provides vaccine compositions and methods of producing such compositions. Other embodiments of the invention include methods of treating a pathogen infection, methods of vaccinating a subject against a pathogen infection, and methods for treating an antibiotic-resistance bacterial infection in a subject in need thereof. In further embodiments, the invention includes methods of decreasing the level of a pathogen in a subject having a pathogen infection, methods of increasing the surviving rate of a subject having a pathogen infection, methods of reducing the level of pain associated with a pathogen infection, and methods of reducing the level of distress associated with a pathogen infection in a subject in need thereof. Novel scaffold compositions and opsonin-bound or lectin-bound pathogen compositions, and uses thereof, are also provided herein.

Abstract: The present disclosure provides click-crosslinked hydrogels and methods of use.

Abstract: A device that includes a scaffold composition and a bioactive composition with the bioactive composition being incorporated therein or thereon, or diffusing from the scaffold composition such that the scaffold composition and/or a bioactive composition captures and eliminates undesirable cells from the body a mammalian subject. The devices mediate active recruitment, sequestration, and removal or elimination of undesirable cells from their host.

Abstract: The present invention is directed to reduced and highly oxidized polysaccharides, such as alginates, that are useful for encapsulating therapeutic or diagnostic agents, or lipid based nanoparticles, e.g., liposomes or virosomes, encapsulating therapeutic or diagnostic agents, prior to their delivery into a subject, as well as methods for making and using them.

Abstract: The present disclosure provides click-crosslinked hydrogels and methods of use.

Abstract: The present invention provides vaccine compositions and methods of producing such compositions. Other embodiments of the invention include methods of treating a pathogen infection, methods of vaccinating a subject against a pathogen infection, and methods for treating an antibiotic-resistance bacterial infection in a subject in need thereof. In further embodiments, the invention includes methods of decreasing the level of a pathogen in a subject having a pathogen infection, methods of increasing the surviving rate of a subject having a pathogen infection, methods of reducing the level of pain associated with a pathogen infection, and methods of reducing the level of distress associated with a pathogen infection in a subject in need thereof. Novel scaffold compositions and opsonin-bound or lectin-bound pathogen compositions, and uses thereof, are also provided herein.

Abstract: The present invention is directed to reduced and highly oxidized polysaccharides, such as alginates, that are useful for encapsulating therapeutic or diagnostic agents, or lipid based nanoparticles, e.g., liposomes or virosomes, encapsulating therapeutic or diagnostic agents, prior to their delivery into a subject, as well as methods for making and using them.

Abstract: The present invention comprises compositions, methods, and devices for enhancing an endogenous immune response against a cancer. Devices and methods provide therapeutic immunity to subjects against cancer.

Abstract: The present invention is directed to a device for enriching cells with a cell surface marker, comprising an aptamer suitable for specifically binding the cell surface marker, and beads coupled thereto, wherein the aptamer is coupled to the beads in a manner that allows for release of cells expressing the cell surface marker, in the absence of a chemical agent, and production of a cell population enriched for cells expressing the cell surface marker, substantially free of beads and aptamer. Kits comprising the device or components thereof, and methods of cell enrichment, are also provided. In exemplary embodiments, the device contains an aptamer that specifically binds CD31.

Abstract: The present invention provides methods and compositions for promoting regeneration of a tissue, methods for preventing or reducing inflammation of a tissue, methods for preventing or reducing fibrosis of a tissue, methods for increasing a mass of a tissue, methods for increasing a level of oxygen available to a tissue, methods for increasing a rate of metabolic waste removal from a tissue, methods for increasing blood perfusion to a tissue, and methods of treating severe muscle tissue damage in a subject in need thereof by contacting the tissue with a composition that is suitable for applying cyclic mechanical compression to the tissue.

Abstract: Acute myeloid leukemia (AML) is a clonal disorder of hematopoietic stem and progenitor cells. It is a devastating disease with a poor prognosis and an average 5-year survival rate of about 30%. Disclosed herein are composition and methods for treating leukemia with a biomaterial comprising a polymer scaffold, a dendritic cell activating factor, a dendritic cell recruitment factor, and at least one leukemia antigen. The biomaterial-based vaccine disclosed herein promotes a potent, durable and transferable immune response against acute myeloid leukemia to prevent cell engraftment and synergizes with chemotherapy to prevent relapse.

Abstract: A device that includes a scaffold composition and a bioactive composition with the bioactive composition being incorporated therein or thereon, or diffusing from the scaffold composition such that the scaffold composition and/or a bioactive composition captures and eliminates undesirable cells from the body a mammalian subject. The devices mediate active recruitment, sequestration, and removal or elimination of undesirable cells from their host.

Abstract: The present invention provides refillable drug delivery systems, as well as methods of refilling the systems, and methods of using them to treat diseases.

Abstract: The present invention comprises compositions, methods, and devices for enhancing an endogenous immune response against a cancer. Devices and methods provide therapeutic immunity to subjects against cancer.

Abstract: The invention provides polymer scaffolds for cell-based tissue engineering.

Abstract: The invention relates to microparticles comprising a crosslinked gel and methods for making and using same.