A diode and logic gate comprising cells is disclosed. A method of making the diode and logic gate comprising cells is 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.

Methods, kits and compositions for generating cancer stem cells are provided.

Provided are a small molecule compound combination for reprogramming digestive tract derived epithelial cells to endodermal stem/progenitor cells, a reprogramming method and an application. Human gastric epithelial cells (hGECs) are used as initiating cells, human gastric subepithelial myofibroblasts (aGSEMFs) are used as a trophoblast, a compound combination having all or a plurality of FBP, Bay K 8644, Bix01294, SB431542 or A813-01, VPA, RG108, PD0325901 and PS48 including SB or A83 is used to reprogram digestive tract derived epithelial cells to endodermal stem/progenitor cells, and the endodermal stem/progenitor cells can be used for inducing differentiation towards liver cells, pancreatic beta cells and intestinal cells.

The present disclosure relates to: an artificial peritoneal tissue comprising a cellular tissue and a mesothelial cell layer that covers the surface of the cellular tissue, wherein the cellular tissue comprises a fibroblast, an extracellular matrix, and a vascular endothelial cell and/or a lymphatic endothelial cell each capable of forming a lumen; and a method for producing the artificial peritoneal tissue.

Disclosed are an artificial tissue including an artificial papillary layer, an artificial skin and a method of manufacturing the same. The artificial tissue includes an extracellular matrix layer including a first extracellular matrix and an artificial papillary layer formed on the extracellular matrix layer and including a papilla or papillae, each papilla including a cell and a second extracellular matrix, thereby overcoming the structural limitation of the flat dermis of existing artificial tissue, exhibiting excellent ability to mimic human physiology, and enabling application thereof to the production of various tissues and organs having a fine uneven structure in the human body.

Disclosed are renal tissues and arrays thereof that include a layer of renal interstitial tissue, the renal interstitial tissue comprising renal fibroblasts and endothelial cells; and a layer of renal epithelial tissue, the renal epithelial tissue comprising renal tubular epithelial cells, the renal epithelial tissue in contact with the layer of renal interstitial tissue to form a three-dimensional, engineered, biological renal tissue. Also disclosed are methods of fabricating and using the same.

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

Described herein are a system, device, methods and compositions related to generating 3-dimensional cardiac tissues. Also described herein are a system, device, and methods of maturing 3-dimensional cardiac tissues and maintaining their viability in culture.

The invention provides a method for the generation of a layered cellular 3 D microtissue aggregate, comprising the steps of contacting myeloid cells with a protein kinase C agonist, yielding primed myeloid cells; incubating the primed myeloid cells in the presence of LDL in a confined volume, particularly in a hanging drop culture; yielding a 3 D culture of myeloid cells; and incubating the 3 D culture together with fibroblasts in a hanging drop in the presence of LDL, yielding the layered cellular aggregate.