The Mechanism of Photofrin Photobleaching and Its Consequences for Photodynamic Dosimetry

Abstract

We report experimental results that support a theory of self-sensitized singlet oxygen-mediated bleaching of the porphyrin photosensitizer Photofrin. Microelectrode measurements of photodynamic oxygen consumption were made near the surface of individual, Photofrin-sensitized EMT6 spheroids during laser irradiation. The progressive decrease in photochemical oxygen consumption with sustained irradiation is consistent with a theory in which bleaching occurs via self-sensitized singlet oxygen reaction with the photosensitizer ground state. A bleaching model based solely on absorbed optical energy density is inconsistent with the data. Photobleaching has a significant effect on calculated photodynamic dose distributions in 500 microns diameter spheroids. Dose distributions corrected for the effects of bleaching produce a new estimate (12.1 +/- 1.2 mM) for the threshold dose of reacting singlet oxygen in this system.