Paolo Erba scite author profile

Summary Background Data Mechanical forces play an important role in tissue neovascularisation and are a constituent part of modern wound therapies. The mechanisms by which Vacuum Assisted Closure (VAC) modulates wound angiogenesis are still largely unknown. Objective To investigate how VAC treatment affects wound hypoxia and related profiles of angiogenic factors as well as to identify the anatomical characteristics of the resultant, newly formed vessels. Methods Wound neovascularization was evaluated by morphometric analysis of CD31- stained wound cross sections as well as by corrosion casting analysis. Wound hypoxia and mRNA expression of HIF-1α and associated angiogenic factors were evaluated by pimonidazole hydrochloride staining and quantitative RT-PCR, respectively. VEGF protein levels were determined by western blot analysis. Results VAC-treated wounds were characterized by the formation of elongated vessels aligned in parallel and consistent with physiologically function, compared to occlusive dressing control wounds that showed formation of tortuous, disoriented vessels. Moreover, VAC-treated wounds displayed a well-oxygenated wound bed, with hypoxia limited to the direct proximity of the VAC-foam interface, where higher VEGF levels were found. By contrast, occlusive dressing control wounds showed generalized hypoxia, with associated accumulation of HIF-1α and related angiogenic factors. Conclusions The combination of established gradients of hypoxia and VEGF expression along with mechanical forces exerted by VAC therapy was associated with the formation of more physiological blood vessels compared to occlusive dressing control wounds. These morphological changes are likely a necessary condition for better wound healing.

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Regeneration potential and survival of transplanted undifferentiated adipose tissue-derived stem cells in peripheral nerve conduits

Erba

Mantovani

Kalbermatten

et al. 2010

Journal of Plastic, Reconstructive & Aesthetic Surgery

131

108

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Paolo Erba

Angiogenesis in Wounds Treated by Microdeformational Wound Therapy

Regeneration potential and survival of transplanted undifferentiated adipose tissue-derived stem cells in peripheral nerve conduits

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