- 1. Phototoxicity of brain tissue in hematoporphyrin derivative treated mice. (nih.gov)
- 2. [Anti-tumor effect of hyperthermia plus hematoporphyrin derivative on malignant brain tumor]. (nih.gov)
- Photosensitization of normal brain tissue with hematoporphyrin derivative. (nih.gov)
- 6. Treatment of murine intraperitoneal ovarian ascitic tumor with hematoporphyrin derivative and laser light. (nih.gov)
- 7. Effect of 514.5-nm argon ion laser radiation on hematoporphyrin derivative-treated bladder tumor cells in vitro and in vivo. (nih.gov)
- 8. Distribution, retention, and phototoxicity of hematoporphyrin derivative in a rat glioma. (nih.gov)
- 10. Hematoporphyrin derivative and pulse laser photoradiation. (nih.gov)
- 11. In vitro and in vivo light dose rate effects related to hematoporphyrin derivative photodynamic therapy. (nih.gov)
- 12. A comparative study of 28 porphyrins and their abilities to localize in mammary mouse carcinoma: uroporphyrin I superior to hematoporphyrin derivative. (nih.gov)
- 17. Hematoporphyrin derivative photoradiation therapy of the rat 9L gliosarcoma brain tumor model. (nih.gov)
- 7. Berns MW, Rettenmaier MA, McCullough J, Wilie A, Berman M, DiSaia PJ, Weinstein G: Response of psoriasis to red laser light (630) following systemic injection of hematoporphyrin derivative. (scgynoncology.com)
- 8. McCullough JL, Weinstein GD, Rettenmaier MA, Berns MW: Cutaneous photosensitization by topical hematoporphyrin derivative formulations: Potential clinical applications. (scgynoncology.com)
- These authors used a hematoporphyrin derivative (HpD) followed by exposure to red light and demonstrated cell death and clinical response in a wide variety of malignant tumors. (ijgii.org)
- 3. Development of a protocol for photoradiation therapy of malignant brain tumors: part 1. (nih.gov)
- 4. Effects of photoradiation therapy on normal rat brain. (nih.gov)
- 5. Photoradiation therapy of Lewis lung tumors in mice with low optical dose rat and high HpD-dose. (nih.gov)
- 9. Photoradiation therapy of bladder tumors. (nih.gov)
- 13. [Photodynamic therapy of malignant brain tumors]. (nih.gov)
- 19. In vitro photoradiation therapy of the rat 9L gliosarcoma. (nih.gov)
- 20. [Photoradiation therapy of experimental brain tumor]. (nih.gov)
- Photoradiation therapy. (org.ua)
- Historically, photodynamic therapy was an additional mechanism, along with external beam irradiation or brachytherapy, Nd:YAG laser tumor ablation or esophageal stent placement and to a lesser extent, chemotherapy, used to reestablish esophageal continuity in patients with esophageal malignancy who could not undergo resective surgery by virtue of infirmity or tumor stage. (ijgii.org)
- These substances, most of which are porphyrin derivatives, preferentially accumulate in malignant tissue, and when exposed to red light applied through an endoscopically placed probe or centering balloon, result in oxygen transformation into singlet oxygen. (ijgii.org)
- 5. Stratton JA, Rettenmaier MA, Braly PS, DiSaia PJ: Accurate prediction of tumor growth in vivo: The subrenal capsule implant site. (scgynoncology.com)
- 3. Stratton JA, Rettenmaier MA, Berman ML, DiSaia PJ: The response of gynecologic tumors to chemotherapy: Correlation of the chemosensitivity predicted by the subrenal capsule implant assay with the clinical response of the patients. (scgynoncology.com)
- 16. Effects of hematoporphyrin (HPD) and a chemiluminescence system on the growth of transplanted tumors in C3H/HeJ mice. (nih.gov)
- Braly, PS, Rettenmaier MA, DiSaia PJ: Depressed natural killer cell activity in tumor bearing rats: Effect of immunotherapy and cytoreductive chemotherapy. (scgynoncology.com)
- 18. [Mechanism of cell damage by hematoporphyrin derivatives (HPD) plus light--I. Photooxidation of hepatoma cell membrane by HPD plus light]. (nih.gov)