Provided herein is a drug delivery device and composition, such as a particle, comprising conditioned medium. Also provided herein is a method of preparing polymeric particles for release of conditioned medium. Further, a tissue growth scaffold comprising particles for release of conditioned medium is provided.

Vascularizing cell aggregates or tissue segments in a microfluidic device by filling a chamber within the device with a matrix that allows for endothelial sprouting; creating at least three voids within the matrix, of which at least two outer voids are lumenally connected to separate perfusion paths within the device and at least one additional void is positioned in between the at least two outer voids; endothelializing the at least two outer voids; introducing at least one cell type, matrix material, tissue segment, or combinations thereof into the void between the two outer voids; and using vascular growth factors to induce the endothelial cells to sprout into the matrix until the at least three voids are interconnected by endothelial sprouts.

An artificial tissue containing pancreatic islet cells, fibroblasts and/or cells capable of differentiating, extracellular matrix, and vascular endothelial cells, in which the fibroblasts and/or the cells capable of differentiating, the extracellular matrix, and the vascular endothelial cells constitute a three-dimensional tissue structure in which a vascular network structure has been formed, and in which the three-dimensional tissue structure contains pancreatic islets constituted by aggregating ten or more of the pancreatic islet cells.

In some aspects, disclosed herein are methods and compositions for generating enterochromaffin cells. In some aspects, the methods and compositions disclosed herein relate to use of an inhibitor of IL-4/JAK3 signaling pathway. In other aspects, disclosed herein are cell compositions, pharmaceutical compositions, and medical devices that relate to pancreatic cells that are generated according to the methods disclosed herein.

Disclosed herein are hepato-biliary-pancreatic organoid (“HBPO” or “HBP organoid”) compositions, and methods of making and using hepato-biliary-pancreatic organoid compositions. The disclosed compositions may have two or more functions selected from hepatic tissue function, biliary tissue function, exocrine pancreatic function, and endocrine pancreatic tissue function. Methods of treating individuals using the hepato-biliary-pancreatic organoid compositions is also disclosed.

Provided are skin constructs and methods of making and using the same, such as for wound treatment and/or compound testing, including compound testing for efficacy, toxicity, immune response, penetration, irritation and/or metabolism testing of drug candidates or compositions such as cosmetics.

Type 2 diabetes (T2D) is a clinical syndrome caused by insufficient insulin secretion for insulin requirements. described herein are compositions and methods for microphysiological MPS models of disease (MODs) for diabetes. These platforms allow one to compare the effect of chronic -cell stimulation in the presence and absence of patient specific immune cells in IPSC-derived islets from each group. Additionally, one can reproduce the T2D -cell phenotype, using islets-on-chips will also be exposed to gluco-lipotoxicity. Likewise, skeletal muscle-on-chips are exposed to patient specific activated immune cells, variable motor neuron innervation and lipids characteristic of T2D.

An artificial tissue containing pancreatic islet cells, fibroblasts and/or cells capable of differentiating, extracellular matrix, and vascular endothelial cells, in which the fibroblasts and/or the cells capable of differentiating, the extracellular matrix, and the vascular endothelial cells constitute a three-dimensional tissue structure in which a vascular network structure has been formed, and in which the three-dimensional tissue structure contains pancreatic islets constituted by aggregating ten or more of the pancreatic islet cells.

Disclosed is a process of manufacturing cell spheroids using a bioink. More particularly, provided is a method of manufacturing a cell spheroid, the method including extruding a first bioink including an alginate; extruding a second bioink including cells into the extruded first bioink; adding a calcium chloride (CaCl2) solution to the alginate included in the first bioink; and dissolving the second bioink, present in the first bioink, in a cell culture medium to form a cell spheroid from the cells.

Provided herein is a drug delivery device and composition, such as a particle, comprising conditioned medium. Also provided herein is a method of preparing polymeric particles for release of conditioned medium. Further, a tissue growth scaffold comprising particles for release of conditioned medium is provided.