Journal
BRITISH JOURNAL OF DERMATOLOGY
Volume 143, Issue 3, Pages 564-572Publisher
BLACKWELL SCIENCE LTD
DOI: 10.1111/j.1365-2133.2000.03711.x
Keywords
5-aminolaevulinic acid; dimethylsulphoxide; liposomes; photodynamic therapy; porphyrins; topical application
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Background The optimal vehicle to ensure adequate penetration of 5-aminolaevulinic acid (ALA) for its use in photodynamic therapy (PDT) of skin lesions has not been determined. Objectives We aimed to study the effects of ALA in various vehicle formulations [saline lotion with and without dimethylsulphoside (DMSO), cream, liposomes and vaseline] after topical application in a murine subcutaneous adenocarcinoma model. Methods The effect of DMSO on porphyrin synthesis and ALA penetration through the skin was studied by measuring the uptake of C-14 label from ALA. ALA and prophobilinogen accumulation, and some haem enzyme activities. The tissue distribution and kinetics of porphyrin synthesis after topical application of ALA entrapped in large multilamellar liposomes was also determined. Results ALA in saline lotion, alone or with 10% DMSO, proved to be the most efficient vehicle for tumour porphyrin accumulation (mean +/- SD 1 . 75 +/- 0 . 25 and 2 . 09 +/- 0 . 39 mu g g(-1), respectively), whereas cream and liposomes induced lower levels and identical porphyrin accumulation (0 . 60 mu g g(-1)). Using ALA + DMSO saline lotion, a higher porphyrin accumulation was found in skin overlying the tumour tissue and in the first 2 mm of tumour, probably due to increased ALA penetration, or greater interconversion to porphyrins, or greater retention of ALA and/or porphyrins. Conclusions These findings reinforce the importance of the vehicle in topical ALA-based PDT, and explain the mechanism of action of DMSO in enhancing protoporphyrin IX biosynthesis in superficial lesions.
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