A cell/tissue culture system comprising at least one bioreactor configured to hold at least one type of cell to cultivate tissue, a dialysis unit comprising a dialysis membrane, a fresh medium unit, and a waste removal unit configured to remove metabolic waste from dialysate, wherein the metabolic waste comprises ammonia and lactate, and wherein the waste removal unit comprises biocatalysts or enzymes configured to breakdown lactate and generate carbon sources that promote cell growth.

Described are three-dimensional, engineered, biological breast tissues, adipose tissues, and tumor models, including breast cancer models.

Provided are an alginate gel fiber for antibody production wherein an antibody-producing cell (for example, an antibody-producing CHO cell) is comprised in a core layer, and an antibody production method using the alginate gel fiber. An antibody production method is thereby additionally provided.

The present invention provide a medium composition for suspension culture of an adherent cell, containing (1) a chitin nanofiber; and (2) a chitosan nanofiber or a polysaccharide.

Disclosed is a method for manufacturing a composite nanofiber support and a fish collagen/synthetic polymer nanofiber support manufactured by the method, wherein the method comprises: a first step for dissolving a synthetic polymer in an organic solvent; a second step for dissolving a fish collagen in water to prepare an aqueous fish collagen solution; a third step for adding the aqueous fish collagen solution prepared in the second step to the synthetic polymer solution prepared in the first step, followed by mixing; and a fourth step for electrospinning the mixture solution prepared in the third step to manufacture a nanofiber support.

This invention provides a cross-linked alginate hydrogel layer encapsulating single mesenchymal stromal cells or progenitor cells, as well as compositions including the encapsulated cells and to methods of using the same to promote osteogenesis and fibrotic tissue repair in a subject.

Compositions useful for propagation of pluripotent stem cells are provided. The compositions comprise a polysaccharide hydrogel linked to a peptide fragment of the extracellular domain of epithelial cadherin. Methods of making the composition, and culturing pluripotent stem cells also are provided.

The present invention provides a foam body suitable for producing a cultured meat having a good texture. The foam body of the present invention includes alginic acid and/or an alginate. The foam body has an elastic modulus M, as determined by a test, of 8×10.sup.4 Pa or less. In the test, the foam body is immersed in 22±3° C. water for 4 hours to prepare a specimen having a post-immersion thickness of 5±1 mm. Stress and strain caused in the specimen are measured by applying a load to the specimen for 5 seconds to compress the specimen in a thickness direction at 0.5 mm/sec. A stress caused in the specimen when the specimen is compressed by 10% of an initial thickness is determined, and a value obtained by dividing the stress by a corresponding strain is determined as the elastic modulus M.

A cell culture article includes a substrate having a polymer coating that is conducive to colony passaging of cells cultured on the coating. Example polymer coatings are formed from polygalacturonic acid (PGA), alginate, or combinations thereof. Cells cultured on the polymer coating can be separated from the substrate as a colony or layer of cells by exposing the polymer coating to (i) a chelating agent, (ii) a proteinase-free enzyme, or (iii) a chelating agent and a proteinase-free enzyme.

A method and microfluidic device for increasing the production of extracellular vesicles are provided which include the use of a cell-adhesive substrate for culturing extracellular-vesicle-producing cells, wherein the cell-adhesive substrate is a hydrogel having a Young's modulus of about 0.1 kPa to about 5 kPa and the hydrogel is functionalized with one or more cell adhesive peptides.