Content matching 'differentiation'
Bio-Techne signs exclusive license agreement with multiclonal therapeutics for adult "ground state" stem cell technology
Our paper in collaboration with Prof. Matt Dalby Lab about the "Regulation of Stem Cell Fate by Nanomaterial Substrates" has been published by "Nanomedicine" journal:
Abstract: Stem cells are increasingly studied because of their potential to underpin a range of novel therapies, including regenerative strategies, cell type-specific therapy and tissue repair, among others. Bionanomaterials can mimic the stem cell environment and modulate stem cell differentiation and proliferation. New advances in these fields are presented in this review. This work highlights the importance of topography and elasticity of the nano-/micro-environment, or niche, for the initiation and induction of stem cell differentiation and proliferation.
Induced pluripotent stem cells (iPS cells) derived from patients with known genetic disease for modeling disease progression in vitro
New mathematical models describe the complex interactions of stem cell function and molecular diffusion in neural tissue, which may help explain many phenomena from stem cell differentiation to the formation of the cortex of the brain.