Optical dosimetry in photodynamic therapy
- 1 January 1986
- journal article
- research article
- Published by Wiley in Lasers in Surgery and Medicine
- Vol. 6 (5), 462-466
- https://doi.org/10.1002/lsm.1900060508
Abstract
The diffusion approximation for the radiant flux distribution in a tissue layer has been applied to optical dosimetry in photodynamic therapy of malignant tumors. The model assumes that tumor eradication requires a minimum absorbed energy by the localized photosensitizer, taken as 0.19 J/cm3 for hematoporphyrin derivative (HPD) at 630 run. The analysis leads to the required incident irradiance for front surface illumination as a function of the tumor depth, the optical penetration depth of the tumor, and the concentration of localized sensitizer. The effect of HPD photobleaching on the required light dose and drug dose levels is considered. The results are given in tabular form for typical clinical applications.Keywords
This publication has 9 references indexed in Scilit:
- Fluorescence Diagnosis of CancerPublished by Springer Nature ,1985
- Dosimetry Methods in Photoradiation TherapyPublished by Springer Nature ,1985
- Photodynamic TherapyPublished by Springer Nature ,1985
- Fluorescence of Hematoporphyrin-Derivative for Detection and Characterization of TumorsPublished by Springer Nature ,1984
- Thermal and Optical Dosimetry for Photoradiation Therapy of Malignant TumorsPublished by Springer Nature ,1984
- Exposure (dose) tables for hematoporphyrin derivative photoradiation therapyLasers in Surgery and Medicine, 1984
- PHOTO-SENSITIZATION OF LIPOSOMAL MEMBRANES BY HEMATOPORPHYRIN DERIVATIVE1983
- Light Dosimetry in Tissue: Application to Photoradiation TherapyPublished by Springer Nature ,1983