A rapidly growing area in the field of bioengineering, 3D bioprinting holds out the hope of replacing the need for organ transplants with the ability to “print” cells into complex, multicellular three-dimensional tissues. With a faster, easier workflow than any other technology on the market, Elixirgen Scientific’s Quick-Tissue™ cells and kits are the ideal reagents for 3D bioprinting. Our technology enables differentiation of stem cells already printed onto the top of the scaffold, one of the most widely used techniques currently used in 3D bioprinting.

With the ability to produce virtually unlimited amounts of identical cells, Elixirgen Scientific’s iPSC differentiation technology enables more consistent, reproducible, and physiologically relevant high-throughput screening (HTS) than immortalized cell lines, and are more affordable and scalable than primary cells. In addition, the streamlined workflow is compatible with automated platforms, making the Quick-Tissue™ Series a perfect fit for efficient HTS operations.

One of the future goals in widely discussed “Precision Medicine” is to select the most suitable drugs for individual patients (“personalized or tailored medicine”).

Our kits help to achieve these dreams by providing rapid, efficient, and reproducible differentiation of patient-specific iPS cells into desired cell types.

“Tissue Chips” and “organs-on-chips” are technologies being developed to provide a more humane and physiologically relevant method for testing the safety and efficacy of drug candidates than animal studies. Elixirgen Scientific’s Quick-Tissue™ Series kits are an excellent choice for this application thanks to the fast and streamlined differentiation workflow that can be performed directly on the chip.

Researchers have traditionally used non-human cells, such as mouse cells, for basic, translational, and applied research because of the lack of suitable human cell lines and/or the impossibility of obtaining primary cells from humans. But the advent of human ES cells and iPS cells has changed this situation, as these pluripotent cells differentiate into essentially any type of cell in the human body. With the Quick-Tissue™ Series kits, human iPSC-derived cells can be generated quickly and easily in any lab, opening the door to more physiologically-relevant models for human biology and disease.

One of the key paradigms of regenerative medicine is to differentiate human ES and iPS cells into desired cell types and transplant them into patients in need of these cells/tissue/organs. Examples include skeletal muscles for Muscular Dystrophy, dopaminergic neurons for Parkinson’s disease, pancreatic beta-cells for Diabetes, cardiomyocytes for heart failures and myocardial infarction. The technology used in the Quick-Tissue™ Series enables the development of these approaches through rapid, reliable, and consistent differentiation of desired cell types from human ES and iPS cells.