Chick embryo chorioallantoic membrane: A biomaterial testing platform for tissue engineering applications

The development of biomaterials frequently relies on testing the responses of surrounding tissues to implants. A simple, affordable ex-vivo platform would be very helpful for tissue engineering. In this paper, we concentrate on the chorioallantoic membrane (CAM) of the chick embryo as a platform for evaluating the biological characterisation of biomaterials. The chick embryo CAM provides a quickly expanding, non-innerved vascular bed that may support tissue culture as a substitute blood supply and serve as a biomaterial testing model. Studies of CAM go beyond their more common applications in the lab; topics include tissue responses, wound healing, anti-bacterial/viral agents, angiogenic characteristics of biomaterials, CAM as bioreactors, and live bone regeneration. It is explored how useful CAM could be as an ex-vivo model in the field of tissue engineering. •Chorioallantoic membrane (CAM) of the chick embryo to evaluate biomaterials' biological characteristics.•The chick embryo CAM is an affordable ex-vivo platform for tissue engineering.•Analysis of anti-bacterial/viral, and wound-healing compounds in CAM model•Angio/osteogenic biomaterials, and live bone regeneration analysis in CAM model