Devices, systems, and methods described herein relate to affecting an internal diameter of a body lumen, and, in many examples, of a pylorus. A silk-based bulking agent may be injected in a pyloric tissue so as to reduce an effective inner diameter of the pylorus. A multi-part occluding agent may be injected into a pylorus on the surface of the pyloric tissue to occlude the pylorus alone or in combination with the silk-based bulking agent.

Systems and methods for tissue engineered synthetic support structures, such as grafts and patches are provided. The systems and methods can be used to make tissue engineered planar sheathes or meshes that can be fashioned into substantially planar or non-planar 3D tissue/organ structures adaptable to structure and organs within a human or mammalian body. The systems and methods can use bioink deposited on a material having specified properties and matured under specified conditions to create the tissue engineered planar sheathes or meshes having biomechanical and biological properties tailored to a particular tissue.

A dental tissue regenerative composition. The composition includes a combination of (1) human dental pulp stem cells and (2) at least one of human umbilical vein endothelial cells or vascular endothelial growth factor. The combination is encapsulated in a light-activated gelatin methacrylate hydrogel.

A method for promoting growth of bone, periodontium, ligament, or cartilage in a mammal by applying to the bone, periodontium, ligament, or cartilage a composition comprising platelet-derived growth factor at a concentration in the range of about 0.1 mg/mL to about 1.0 mg/mL in a pharmaceutically acceptable liquid carrier and a pharmaceutically-acceptable solid carrier.

The present disclosure provides compositions, methods, and kits that enable the in situ growth of polymers on or within a subject. In some aspects, the tissue-active monomers, including monomers comprising macromolecules, provide abroad set of material choices for synthetic tissue barriers. In additional aspects, the compositions, methods, and kits are useful for treating or preventing a disease or disorder.

Grafts modified with one or more bioactive substances are provided, as well as methods to make and use them. More particularly, the present invention relates to modified grafts having characteristics which facilitate tissue generation, repair, and reconstruction, and which are modified with bioactive substances, such as one or more proteins and minerals, whose bioactivity further facilitates tissue generation, repair, and reconstruction. Methods for producing the modified grafts include depositing the one or more bioactive substances onto, into, or both, a substrate material. In certain exemplary embodiments, the substrate material comprises a tissue derived matrix produced by processing one or more tissue samples, and the bioactive materials are precipitated from a solution produced during that processing, such as during demineralization of bone tissue samples or delipidation of adipose tissue samples, wherein the one or more bioactive substances comprise proteins and minerals endogenous to bone or adipose tissue, respectively.

Provided are methods for preparing gelled, solubilized extracellular matrix (ECM) compositions useful as cell growth scaffolds. Also provided are compositions prepared according to the methods as well as uses for the compositions. In one embodiment a device, such as a prosthesis, is provided which comprises an inorganic matrix into which the gelled, solubilized ECM is dispersed to facilitate in-growth of cells into the ECM and thus adaptation and/or attachment of the device to a patient.

The embodiments relate to improved skin quality, health and appearance using a new delivery method and certain bioactive compositions and formulations. The system incorporates microneedle delivery technology with unique compositions and formulations. Such development allows for the pursuit of personalized medicine, or treatment delivery that can expand to remote controlled environment, immediate compounding and ultimate personalization with a state of the art longitudinal data predictive analytics. Certain formulations described herein are unique, combinatory and synergistic. Secured by high-tech proprietary system, there are unlimited potentials using AQT technology including but not limited to 3-D printing of a biodegradable micro chips that can be delivered via injection, AQT or any other possible route.

Compositions and methods related to hydrogel tissue sealants are generally described. In certain embodiments, a hydrogel forming composition is provided in dry form (e.g., as one or more powder mixtures) and comprises at least an electrophilic polymer crosslinking agent and a nucleophilic polymer such as a protein that is capable of crosslinking with the crosslinking agent. One or more solvents able to dissolve the crosslinking agent and the protein can be provided and used to dissolve the hydrogel forming composition to facilitate crosslinking.

The present disclosure provides biomaterials and methods for preventing and minimizing progression of cartilage and/or connective tissue damage. Also provided herein are biomaterials and methods for alleviating and/or reducing the risk for developing arthritis (e.g., osteoarthritis) associated with joint injury and/or joint surgery.