Effects of light exposure on the uptake of photofrin II in tumors and normal tissues
- 19 August 1992
- journal article
- research article
- Published by Wiley in International Journal of Cancer
- Vol. 52 (1) , 120-123
- https://doi.org/10.1002/ijc.2910520121
Abstract
DBA mice bearing CaD2mammary carcinomas were used to determine the effect of giving small doses of light to the tumor area 1.5 hr after injecting Photofrin II (PII). The smallest light dose applied (12.5 J/cm2) had no effect on the uptake of Pll in the tumor and its surrounding tissues, as measured 24 hr after the i.p. injection. However, several higher light doses increased the uptake of PII in the tumor significantly, the uptake in skin slightly, while the uptake in muscle tissue was decreased rather than increased. Thus, the PII concentration ratio between the tumor and the surrounding normal tissues was significantly improved. The rates of clearance of PII from irradiated tissues and non‐irradiated tissues were not significantly different. Most likely, the present observations are due to transient pH lowering in the tumor resulting from vascular damage.Keywords
This publication has 14 references indexed in Scilit:
- Effect of mitomycin C on the uptake of photofrin II in a human colon adenocarcinoma cell lineCancer Letters, 1992
- Modification by vasoactive drugs of tumour destruction by photodynamic therapy with haematoporphyrin derivativeBritish Journal of Cancer, 1989
- The effect of fractionation of light treatment on necrosis and vascular function of normal skin following photodynamic therapyBritish Journal of Cancer, 1988
- Light dose fractionation versus single-dose irradiation in photodynamic therapy of tumoursLasers in Medical Science, 1988
- PHOTODYNAMIC THERAPY‐INDUCED HYPOXIA IN RAT TUMORS and NORMAL TISSUESPhotochemistry and Photobiology, 1987
- A comparison of different photosensitizing dyes with respect to uptake C3H-tumors and tissues of miceCancer Letters, 1987
- Laser Photodynamic Therapy for Bladder CancerMayo Clinic Proceedings, 1986
- Cerebral photosensitisation by haematoporphyrin derivative. Evidence for an endothelial site of actionBritish Journal of Cancer, 1986
- Photodynamic inactivation of cancer cells in vitro. Effect of irradiation temperature and dose fractionationCancer Letters, 1979
- The mechanism of photodynamic inactivation of human cells in vitro in the presence of haematoporphyrinBritish Journal of Cancer, 1979