Abstract: A microfluidic chip for modelling flow through a vein includes a body including a microchannel extending between a fluid inlet and a fluid outlet, wherein at least a portion of the microchannel is coated with endothelial cells that form vascular lumen, and a venous valve formed in the body and positioned along the microchannel, wherein the venous valve includes a pair of leaflets defining a pair of cusps of the venous valve, and a flow channel positioned between the leaflets.

Abstract: A venous valve model includes a first layer having a central axis and a fluid channel extending between a fluid inlet and a fluid outlet formed in the first layer, wherein the fluid channel is defined by a pair of channel walls, a first venous valve formed in the first layer and positioned along the fluid channel, and a pair of first actuation chambers positioned adjacent the channel walls of the fluid channel, wherein the pair of first actuation chambers are configured to decrease a width of the fluid channel in response to pressurization of the pair of first actuation chambers.

Abstract: A venous valve model includes a first layer having a central axis and a fluid channel extending between a fluid inlet and a fluid outlet formed in the first layer, wherein the fluid channel is defined by a pair of channel walls, a first venous valve formed in the first layer and positioned along the fluid channel, and a pair of first actuation chambers positioned adjacent the channel walls of the fluid channel, wherein the pair of first actuation chambers are configured to decrease a width of the fluid channel in response to pressurization of the pair of first actuation chambers.