The present invention relates to a method of patterning and chopping 3D organoids prepared from human pluripotent stem cells, culturing the stem cells or progenitor cells, and inducing the differentiation thereof to obtain a large amount of finally differentiated cells. Compared to cells differentiated by a conventional differentiation method, the cells obtained in a large amount exhibit remarkably superior effects in terms of reproducibility, stability, and functionality, and thus are expected to be very useful for cell therapeutic agents or for the screening of therapeutic drugs.

A method for producing CD4/CD8 double-positive T cells, comprising the steps of: (1) culturing pluripotent stem cells in a medium to induce hematopoietic progenitor cells; and (2) culturing the hematopoietic progenitor cells obtained in the step (1) in a medium containing a p38 inhibitor and/or SDF-1 to induce CD4/CD8 double-positive T cells.

The present invention provides a method of treating a disorder using a fibromodulin (FMOD) reprogrammed (FReP) cell. The method comprises administering locally to a human being the FReP cell to a site in need thereof of the human being.

This invention relates to Natural Killer (NK) cell populations, to methods of producing the same and therapeutic applications thereof. More specifically, the invention relates to the expansion of NK cells by increasing the expression of specific transcription factors associated with NK cell production.

Devices, systems, and their methods of use, for generating droplets are provided. One or more geometric parameters of a microfluidic channel can be selected to generate droplets of a desired and predictable droplet size.

The present disclosure provides methods of evaluating a therapeutic agent for cancer, and methods of cancer treatment.

The present invention relates to a method for preparation of mesenchymal stem cells from human pluripotent stem cells and, more particularly, to a method for preparation of mesenchymal stem cells, wherein mesenchymal stem cells differentiated from embryoid bodies of a certain size in a xeno-free and serum-free environment are prepared, whereby the mesenchymal stem cells exhibit increased safety and maintain their own characteristics for a long period of time. A method for preparation of mesenchymal stem cells from human pluripotent stem cells according to the present invention employs a feeder cell-free, xeno-free, and serum-free culture environment to solve the problem of contamination with a foreign animal-derived material and allow the preparation of highly safe mesenchymal stem cells. In addition, the method utilizes spheroidal embryoid bodies to form mature embryoid bodies uniform in shape and size, thereby improving the differentiation efficiency to mesenchymal stem cells and exhibiting an exceptional effect of stably maintaining mesenchymal stem cell characteristics even after a long-term subculture, such as 20 or more passages, through which human pluripotent stem cell-derived mesenchymal stem cells can be prepared in a large amount. Therefore, the invention is advantageous for commercializing cell therapeutic agents superb in safety and efficiency.

Methods for generating in culture of cells resembling mammalian trophectoderm-lineage cells from mammalian pluripotent stem cells are provided, along with the related compositions.

Provided herein are methods of producing a distinct bilayer culture of retinal epithelial cells (RPE) with photoreceptor cells and/or photoreceptor precursor cells (PR/PRP). Further provided herein is a therapy comprising transplantation of the RPE and PR/PRP bilayer as well as methods for testing candidate drugs using the bilayer.

A platform for creating engineered tissues includes a vascular tube that defines a vascular diameter and is configured to receive vascular system seed cells, a non vascular tube that defines a non-vascular tube diameter and is configured to receive organ system seed cells, and a barrier formed between the vascular tube and the non vascular tube.