Background: Collagen matrices as substitution for connective tissue are known to promote wound healing. Photodynamic therapy has been anecdotally associated with improved wound healing and reduced scarring. The present study investigates the impact of collagen based scaffolding material, embedded with a liposomal formulation of meta-tetra (hydroxyphenyl) chlorin (mTHPC, Foslip(®)) and photodynamic therapy on wound healing in mice.
Methods: After incision in the neck region, two different types of collagen material, previously incubated with Foslip(®) at different concentrations, were implanted followed by illumination at 652nm (10J/cm(2), 100mW/cm(2)). Mice were imaged daily up to two weeks, whereafter excision was performed and pathological analysis.
Results: Scab detachment was observed at day seven for controls whereas it occurred as early as three days for PDT at the lowest concentrations. In the latter conditions, final matrix remodelling could be observed as evidenced by elastin neosynthesis.
Conclusions: Topical application of low dose Foslip(®) in a collagen matrix followed by illumination considerably accelerates wound healing.
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