The present invention is concerned with a photosynthetic scaffold that delivers oxygen and its uses for tissue engineering and the treatment of ischemia.

According to the present disclosure, there is provided a system for culturing animal cells using a component derived from an organism such as algae as a nutrient source, and reusing the culture waste liquid. The present disclosure provides an organism or a cultured cell which undergoes a modification, in which the modification includes imparting or enhancing L-lactate utilization ability in the organism or the cultured cell. In addition, the present disclosure provides a method for culturing at least two types of cells including a cell X and a cell Y in a circulation manner, the method including: a step (a) of providing a component excreted from the cell X to the cell Y; a step (b) of providing a component derived from the cell Y to the cell X; a step (c) of culturing the cell X and the cell Y; and a step (d) of repeating the steps (a) to (c) as necessary, in which at least one of the components excreted from the cell X is an assimilable component of the cell Y, and at least one of the components derived from the cell Y is a nutritional component of the cell X.

A culture container for culturing epithelial cells, includes an upper container, a lid member configured to airtightly fit with an opening portion of the upper container, and a lower container configured to accommodate the upper container and a cell culture medium, in which at least a part of an area of the upper container in contact with the cell culture medium is formed of a membrane that is permeable to at least a part of components of the cell culture medium and impermeable to a cell, and a material of the lid member has an oxygen permeability coefficient of 1.010.sup.6 cm.sup.3 cm/(cm.sup.2.Math.sec.Math.atm) or less.

Provided are compositions for long-term maintenance of functional hepatocytes in culture, a method for improved maintenance of functional hepatocytes in vitro, and functional hepatocytes cultures according to the methods. The culture compositions include at least: one activator of adenylate cyclase, one TGFinhibitor, one Notch inhibitor, one Wnt inhibitor, and/or one BMP inhibitor. The combinations of compounds are added to any hepatocyte cell culture medium in an effective amount to maintain functional hepatocyte function in vitro, long term. The hepatocytes can be used for in vitro drug research and to model liver disease.

The present disclosure a method for preparing killer immunocytes and its application in lung cancer. Autologous immunocytes of the cancer patient can be activated in vitro by the VAK technique, and by re-infusing these activated immunocytes into the patient's body, such that the immunocytes achieve a powerful tumor killing effect, especially in the secondary activation technology of immunocytes and viruses mixed twice, which can make immunocytes maintain a higher killing activity. VAK cells kill the cancer cells and meanwhile promote release of tumor associated antigen, being beneficial to inducing a specific anti-tumor immunological reaction.