Thank you for downloading the Feeder-Free Himan iNK Differentiation Process - Scientific Poster
Current iNK differentiation protocols typically utilize xenogenic feeder cells, which could be problematic for patient safety, or they lack robustness and are highly variable in differentiation efficiency. Using animal-free small molecules and recombinant proteins, Bio-Techne developed a feeder-free differentiation process to reliably generate iNKs at scale by optimizing for CD34+ hematopoietic stem cells (iHSC) prior to downstream NK differentiation.
Latest Insights
Multiply Labs and Wilson Wolf Join Forces to Automate Cell Therapy Manufacturing with G-Rex® Bioreactors
Multiply Labs and Wilson Wolf are partnering to automate G-Rex® bioreactors for cheaper, more accessible cell therapy manufacturing. This partnership focuses on automating Wilson Wolf's innovative G-Rex® bioreactors, aiming to revolutionize CGT manufacturing.
Unlocking the Potential of Stem Cells: A New Frontier in Cancer Immunotherapy
Cancer immunotherapy has revolutionized treatment, but existing strategies have limitations. Natural Killer (NK) cells, part of our immune system, show amazing potential to destroy both blood and solid tumor cancers. However, getting enough consistently potent NK cells for therapy is tricky.
Innovating Cell Therapy Manufacturing: The Path to Decentralization and GMP Success
Cell therapies are exploding with potential, offering groundbreaking new treatments for a wide range of diseases. Yet, a central challenge lies in bringing these complex therapies out of the lab and into the real world. In a recent panel discussion, Josh Ludwig (Global Commercial Director, ScaleReady) and Stuart Curbishley (Chief Manufacturing & Development Officer, Adthera Bio) shed light on this complex transition.
Are you ready to scale?
Let’s talk more about how ScaleReady can advance your cell and gene therapy research and manufacturing with ingenious efficiency.