Spectral properties of stilbazolium merocyanines – potential sensitizers in photodynamic therapy and diagnosis: Part I. Merocyanines in model systems

Abstract

Spectral and photochemical properties of seven stilbazolium merocyanines of different chain length and side groups attached, dissolved in ethanol or methanol solutions as well as in polyvinyl alcohol water solutions and films, were investigated. The absorption, fluorescence emission and fluorescence excitation spectra as well as steady state photoacoustic and laser induced optoacoustic spectroscopy signals were measured.Triplet states are, because of their slow decay time, usually very effective in photochemical reaction; therefore dyes with efficient triplet states generation are suitable for destruction of illuminated diseased cells. The laser induced optoacoustic measurements were used to evaluate the efficiency of generation and decay times of dye triplet states. The quenching of the dye triplet state by oxygen was also studied.The results show that properties of merocyanines and their interactions with macromolecules depend strongly on the type of side groups attached. The dyes with NO2 groups attached exhibit low yield of fluorescence therefore they could be useful rather in photodynamic therapy (PDT) than for diagnostic purposes. Some of the merocyanines investigated exhibit high yields of triplet state generation and, therefore, should be effective in photodynamic reactions.Further investigations will be carried out with the same dyes on healthy and diseased cells in order to show whether it is possible, on the grounds of spectral and photochemical properties of dye molecules in simple model systems, to predict the efficiencies of the dye incorporation into cells and the yield of photodynamic reactions.