Atherosclerotic plaques localize to regions of flow disturbance, i.e. bifurcations, branch points and regions of high curvature. Shear stress in these regions can be multi-directional due to complex flow patterns such as time-varying vortices. However, commonly used in vitro flow models are incapable of changing flow orientation to any direction other than the reverse. We have developed a novel in vitro flow system to enable changes in flow direction to any angle. When cells were pre-aligned in laminar shear, and then rotated 90°, cells re-aligned over 24h. Re-alignment involved actin remodeling by gradual rotation of actin stress fibers. This device will enable that analysis of how endothelial cells sense changes in flow direction as occur in vivo.