Pre-vascularized dermis model for fast and functional anastomosis with host vasculature.

Skin engineering for clinical applications has gained numerous advances, however, most of the available dermis substitutes are exogenous matrices acting for a limited time. Indeed, after implantation these matrices need to be colonized by host cells such as fibroblast and endothelial cells which respectively produce their own extracellular matrix and set a vascular network within the construct. These steps are essential to guarantee implant efficacy, but they may require a long time depending on tissue dimension and lesion severity. Here we show the pre-vascularization process of a dermis equivalent featured by an endogenous matrix produced by human dermal fibroblasts. In this environment, endothelial cells were able to develop mature capillary-like-structures (CLS) as demonstrated by both the inner lumen and the positivity for alpha-SMA, laminin and collagen. The pre-vascularized dermis model (PVD) so obtained had a human matrix populated by fibroblasts as well as a complex capillary network making the construct ready to be implanted. These features make the graft very easy to handle during the surgery. In vivo results showed that 7 days after implantation CLS effectively anastomosed with host vessels. Therefore we argue that the proposed PVD may represent a new class of dermis substitute of strong clinical interest.