Microvessel networks [corrected] pre-formed in artificial clinical grade dermal substitutes in vitro using cells from haematopoietic tissues.

Forming a microcirculation is critical for vascularisation of artificial skin substitutes. One strategy to improve speed of grafting is to pre-form microvascular networks in the substitute before applying to a wound. For clinical application, this requires sufficient functional endothelial cell numbers.

The impact of proliferative potential of umbilical cord-derived endothelial progenitor cells and hypoxia on vascular tubule formation in vitro.

Revascularization of the damaged tissue is pivotal to tissue repair. Here, by bringing together two in vitro model systems, we have been able to examine (1) the ability of human umbilical vein endothelial cells (HUVEC) containing a complete hierarchy of endothelial progenitors derived from the human umbilical cord to generate vascular tubules within a human stromal niche in vitro and (2) the effects of exposure to low oxygen tensions on endothelial progenitor cell proliferation and tubule formation in vitro. Our results demonstrate that high proliferative potential endothelial colony forming cells (HPP-ECFC) from cultured HUVEC preferentially contribute to vascular tubule formation in vitro and that these progenitor cells are concentrated in the CD34(lo/-) fraction.

The relationship between protease/anti-protease profile, angiogenesis and re-epithelialisation in acute burn wounds.

In the management of partial thickness burns, it is difficult to balance between conservative management and surgical intervention. Our hypothesis was that a triangular relationship exists between protease/anti-protease profile at the burn wound surface, angiogenesis and re-epithelialisation. By manipulation of the biochemical profile at the wound level, we determined to affect the nature and extent of angiogenesis and resulting re-epithelialisation.