The effect of photodynamic therapy on the microcirculation.

Photodynamic therapy (PDT) is a new form of cancer therapy involving tumor localization by photosensitizing drugs such as dihematoporphyrin ether (DHE). Light irradiation of drug-sensitized tissue results in photoactivation of DHE and tumor necrosis. The mechanism of action is incompletely understood but involves the generation of singlet oxygen which produces cytotoxic effects on tissues containing the compound. In addition, microcirculatory aberrations have been described during PDT. We have studied the acute effects of PDT on the microcirculation using in vivo television microscopy of the rat cremaster. This has enabled us to observe the effects of PDT on both paired and unpaired arterioles and venules using two different wavelengths of activating light (blue, 450-490 nm, and green, 530-560 nm). For both wavelengths of activating light, significant reduction in blood flow of all vessels was seen during PDT. This, in combination with the formation and embolization of platelet thrombi, resulted in stasis of blood flow in 80% of arterioles and 90% of venules. Observation for 2 hr after the completion of photoactivation revealed reperfusion in 20% of the arterioles but none of the venules. Blood flow was reduced by a combination of vasoconstriction and platelet thrombus formation. Reducing the total activating energy from 120J/cm2 to 24J/cm2 significantly reduced the response in venules and the incidence of stasis in both arterioles and venules. We conclude that the photoactivation of DHE results in significant vasoconstriction and thrombosis of normal vessels and that if these effects are seen at later times after DHE administration and in tumor neovasculature they may contribute to the mechanism by which PDT results in tumor necrosis.