Influence of multiscale and curved structures on the migration of stem cells

Understanding how topographical cues can control cell behavior is a major fundamental question which is of particular interest for implant design. Recent findings show that cell-scale curvature, as well as nanoscale topography, can affect different aspects of cell migration. However, the correlation between specific curvature radii and cell behavior, as well as the combinatorial effect of nanoscale topography and cell-scale curvature, has not yet been investigated. Herein, the authors employ a new femtosecond laser ablation method to generate multiscale topographical patterns directly on titanium surfaces. The process allows us to produce microgrooves of specific curvature imprinted with oriented nanotopographical features called Laser-Induced Periodic Surface Structures (LIPSS). The authors show that curved grooves stimulate the stem cell migration speed in comparison to flat or linear grooves. The fastest velocities are observed on 75 μm curvature radius, whereas cells migrating on 125 μm curvatures exh...