The invention provides a cell binding composition comprising a shear thinning gel wherein the shear thinning gel having attached to it one or more cell selective binding agents, or the shear thinning gel having dispersed therein a plurality of gel beads, the gel beads having attached to them one or more cell selective binding agents. Methods of enriching cells using the compositions and using the cells to treat injury or disease are also provided.

The present application provides methods of functionalizing an organ or tissue of a mammal by administering a nutrient (e.g., peracetylated N-azido galactosamine Ac4GalNAz) to the mammal or by culturing an organ or tissue in a bioreactor containing such nutrient. The present application also provides methods of selectively functionalizing extracellular matrix (ECM) of an organ or tissue of a mammal by administering a nutrient (e.g., peracetylated N-azido galactosamine Ac4GalNAz) to the mammal. In some aspects, the present application provides a decellularized scaffold of a mammalian organ or tissue comprising an extracellular matrix, wherein the extracellular matrix of the decellularized scaffold is functionalized with a chemical group that is reactive in a bioorthogonal chemical reaction, such as an azide chemical group. The present application also provides biological prosthetic mesh and mammalian organs and tissues for transplantation prepared according to the methods of the application.

Methods for decellularizing organs and tissues in vitro and in vivo are provided, as are methods of maintaining organ and tissue frameworks and methods of recellularizing organs and tissues, thereby providing an approach to needed organs or tissues.

The present invention relates to an implantable cell chamber device capable of retaining cells but permitting diffusion of biomolecules. Also disclosed are methods for delivering a therapeutic biomolecule to a subject in need thereof on a continuous or semi-continuous basis, by administering to the subject a cell chamber device comprising cells that secrete the therapeutic biomolecule.

A therapeutic bandage includes a bandage matrix and an array of microneedles extending from the bandage matrix. Each of the microneedles includes a first layer that encapsulates a first immunomodulatory compound and a second layer that encapsulates a second immunomodulatory compound. The array of microneedles is configured to guide foreign agents affected by the first immunomodulatory compound, the second immunomodulatory compound, or the first and second immunomodulatory compounds from one or more skin layers of a user to the bandage matrix such that the bandage matrix absorbs and captures the foreign agents.

The present invention provides a method of promoting local bone growth by administering a therapeutic amount of a Sost antagonist to a mammalian patient in need thereof. Preferably, the Sost antagonist is an antibody or FAB fragment selectively recognizing any one of SEQ ID NOS: 1-23. The Sost antagonist may be coadministered together or sequentially with a matrix conducive to anchoring new bone growth. Orthopedic and Periodontal devices comprising an implantable portion adapted to be permanently implanted within a mammalian body and bearing an external coating of a Sost antagonist are also disclosed, as it a method of increasing bone density by administering to a mammalian patient a therapeutic amount of a Sost antagonist together with an antiresorptive drug.

The present invention provides a method of promoting local bone growth by administering a therapeutic amount of a Sost antagonist to a mammalian patient in need thereof. Preferably, the Sost antagonist is an antibody or FAB fragment selectively recognizing any one of SEQ ID NOS: 1-23. The Sost antagonist may be coadministered together or sequentially with a matrix conducive to anchoring new bone growth. Orthopedic and Periodontal devices comprising an implantable portion adapted to be permanently implanted within a mammalian body and bearing an external coating of a Sost antagonist are also disclosed, as it a method of increasing bone density by administering to a mammalian patient a therapeutic amount of a Sost antagonist together with an antiresorptive drug.

A therapeutic bandage includes a bandage matrix and an array of microneedles extending from the bandage matrix. Each of the microneedles includes a first layer that encapsulates a first immunomodulatory compound and a second layer that encapsulates a second immunomodulatory compound. The array of microneedles is configured to guide foreign agents affected by the first immunomodulatory compound, the second immunomodulatory compound, or the first and second immunomodulatory compounds from one or more skin layers of a user to the bandage matrix such that the bandage matrix absorbs and captures the foreign agents.

An orthopedic device for implanting between adjacent vertebrae comprising: an arcuate balloon and a hardenable material within said balloon. In some embodiments, the balloon has a footprint that substantially corresponds to a perimeter of a vertebral endplate. An inflatable device is inserted through a cannula into an intervertebral space and oriented so that, upon expansion, a natural angle between vertebrae will be at least partially restored. At least one component selected from the group consisting of a load-bearing component and an osteobiologic component is directed into the inflatable device through a fluid communication means.

The present disclosure relates to compositions and methods for modulating wound healing and regeneration. More particularly, the present disclosure relates to immunomodulatory agents that promote wound healing and tissue regeneration, and that may be optionally used in combination with synthetic or biomaterial scaffolds.