The invention relates to a compacted tissue of human cardiac cells expressing cardiac troponin C, which is contractile and has a low spontaneous contraction frequency. The invention also relates to the use of the tissue, in particular in the treatment of a cardiac pathology, particularly ischaemic heart disease.

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 microfluidic device provides high throughput generation and analysis of defined three-dimensional cell spheroids with controlled geometry, size, and cell composition. The cell spheroids of the invention mimic tumor microenvironments, including pathophysiological gradients, cell composition, and heterogeneity of the tumor mass mimicking the resistance to drug penetration providing more realistic drug response. The device is used to test the effects of antitumor agents.

A method of creating a miniature multicellular biological construct and a method for studying cellular environments using the miniature multicellular biological construct is provided. The method for making the miniature multicellular biological construct includes suspending cells in a hydrogel, depositing the cell-suspension into a microwell, gelling the cell-suspension, and incubating the cell-suspension. The method for studying cellular environments includes imaging the miniature multicellular biological construct.

An object of the present invention is to provide a method for removing highly proliferative Ki67-positive cells co-present in insulin-secreting cells obtained by differentiation induction. A method for producing an insulin-producing cell population or a pancreatic beta cell population containing less than 3% of Ki67-positive cells, comprising: embedding an endocrine progenitor cell population or a cell population at a later stage of differentiation into a gel containing alginic acid; and differentiating the cell population.

Disclosed are compositions comprising cellular constructs comprising mesenchymal cells and epithelial cells. Also disclosed are methods of making the cellular constructs, methods of hair restoration, and kits. The invention also discloses parallel bio-printing systems and methods for making cellular constructs, such as cellular constructs comprising mesenchymal cells and epithelial cells.

Disclosed herein are compositions, devices, and methods that provide cellular materials in ready to use formats for experimental, therapeutic, and tissue engineering protocols. For example, compositions containing frozen or non-frozen cell present as aggregates are disclosed. Also disclosed a compositions containing cellular materials that after storage are suitable for dispersion, e.g. by 3D printing. Also disclosed is a kit for producing bioink compositions. Also disclosed is a closed system device comprising a cell material composition described herein.

The present invention is directed to the use of microfluidics in the preparation of cells and compositions for therapeutic uses.

The producing method includes causing a cell suspension to flow into a tubular flow path; injecting a gel precursor into the flow path to cover the circumference of the cell suspension with the gel precursor; injecting a gas into the flow path to form, in the flow path, an alternating flow obtained from the gas and the cell suspension covered with the gel precursor; and injecting a gelating agent into the flow path and causing the gelating agent to join the alternating flow to the gel precursor.

Provided herein is a see-through transparent, stable, safe and (bio)degradable hydrogel-based particulate support medium, made of calcium alginate particles. The calcium alginate particles, or hybrid hydrogel particles, are characterized by a substantially homogeneous average particle size that ranges from 0.1 micrometer to 5 micrometer.