Characterizing cell recruitment into isotropic and anisotropic biomaterials by quantification of spatial density gradients in vitro

Abstract: The success of cell-free in situ tissue engineering approaches depends on an appropriate recruitment of autologous cells from neighboring tissues. This identifies cellular migration as a critical parameter for the pre-clinical characterization of biomaterials. Here, we present a new method to quantify both the extent and the spatial anisotropy of cell migration in vitro. For this purpose, a cell spheroid is used as a cell source to provide a high number of cells for cellular invasion and, at the same time, to … Show more

“…This first aspect is important from the point of view of cellular asymmetry. Certain cell types have an anisotropic distribution of cell content depending on the aforementioned communication factors [34,35]. For example, cells from the intestinal absorption mucosa and cells from the hepatic parenchyma and the renal parenchyma, respectively, have the transport of substances directed according to the signaling factors that change the distribution of cell transport factors [36].…”

Perspectives on Scaffold Designs with Roles in Liver Cell Asymmetry and Medical and Industrial Applications by Using a New Type of Specialized 3D Bioprinter

“…This first aspect is important from the point of view of cellular asymmetry. Certain cell types have an anisotropic distribution of cell content depending on the aforementioned communication factors [34,35]. For example, cells from the intestinal absorption mucosa and cells from the hepatic parenchyma and the renal parenchyma, respectively, have the transport of substances directed according to the signaling factors that change the distribution of cell transport factors [36].…”

Perspectives on Scaffold Designs with Roles in Liver Cell Asymmetry and Medical and Industrial Applications by Using a New Type of Specialized 3D Bioprinter

Incorporation of metal-doped silicate microparticles into collagen scaffolds combines chemical and architectural cues for endochondral bone healing