PURPOSE: Photodynamic therapy, using a photosensitizing drug activated by red light, can destroy localized areas of cancer with safe healing and without the cumulative toxicity associated with ionizing radiation. We used photodynamic therapy in a phase I-II study to treat patients with locally recurrent prostate cancer after radiotherapy. MATERIALS AND METHODS: Patients with an increasing prostate specific antigen (PSA) and biopsy proven local recurrence after radiotherapy were offered photodynamic therapy. Three days after intravenous administration of the photosensitizer meso-tetrahydroxyphenyl chlorin, light was applied using optical fibers inserted percutaneously through perineal needles positioned in the prostate with imaging guidance. Patients were followed with PSA measurements, prostate biopsies, computerized tomography or magnetic resonance imaging and questionnaires on urinary and sexual function. RESULTS: Photodynamic therapy was given to 14 men using high light doses in 13. Treatment was well tolerated. PSA decreased in 9 patients (to undetectable levels in 2) and 5 had no viable tumor on posttreatment biopsies. After photodynamic therapy, contrast enhanced computerized tomography or magnetic resonance imaging showed necrosis involving up to 91% of the prostate cross section. In 4 men stress incontinence developed (troublesome in 2 and mild in 2) which is slowly improving. Sexual potency was impaired in 4 of the 7 men able to have intercourse before photodynamic therapy, which did not improve. There were no rectal complications directly related to photodynamic therapy, but in 1 patient a urethrorectal fistula developed following an ill-advised rectal biopsy 1 month after therapy. CONCLUSIONS: Photodynamic therapy is a new option that could be suitable for organ confined prostate cancer recurrence after radiotherapy. With more precise light dosimetry, it may be possible to destroy essentially all glandular tissue within the prostate with few complications. These results suggest that photodynamic therapy merits further investigation.
PURPOSE: Photodynamic therapy, using a photosensitizing drug activated by red light, can destroy localized areas of cancer with safe healing and without the cumulative toxicity associated with ionizing radiation. We used photodynamic therapy in a phase I-II study to treat patients with locally recurrent prostate cancer after radiotherapy. MATERIALS AND METHODS:Patients with an increasing prostate specific antigen (PSA) and biopsy proven local recurrence after radiotherapy were offered photodynamic therapy. Three days after intravenous administration of the photosensitizer meso-tetrahydroxyphenyl chlorin, light was applied using optical fibers inserted percutaneously through perineal needles positioned in the prostate with imaging guidance. Patients were followed with PSA measurements, prostate biopsies, computerized tomography or magnetic resonance imaging and questionnaires on urinary and sexual function. RESULTS: Photodynamic therapy was given to 14 men using high light doses in 13. Treatment was well tolerated. PSA decreased in 9 patients (to undetectable levels in 2) and 5 had no viable tumor on posttreatment biopsies. After photodynamic therapy, contrast enhanced computerized tomography or magnetic resonance imaging showed necrosis involving up to 91% of the prostate cross section. In 4 menstress incontinence developed (troublesome in 2 and mild in 2) which is slowly improving. Sexual potency was impaired in 4 of the 7 men able to have intercourse before photodynamic therapy, which did not improve. There were no rectal complications directly related to photodynamic therapy, but in 1 patient a urethrorectal fistula developed following an ill-advised rectal biopsy 1 month after therapy. CONCLUSIONS: Photodynamic therapy is a new option that could be suitable for organ confined prostate cancer recurrence after radiotherapy. With more precise light dosimetry, it may be possible to destroy essentially all glandular tissue within the prostate with few complications. These results suggest that photodynamic therapy merits further investigation.
Authors: Zheng Huang; Qun Chen; Nadira Trncic; Susan M LaRue; Pierre-Hervé Brun; Brian C Wilson; Howard Shapiro; Fred W Hetzel Journal: Radiat Res Date: 2004-06 Impact factor: 2.841
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Authors: Zheng Huang; Masoom A Haider; Susan Kraft; Qun Chen; Dominique Blanc; Brian C Wilson; Fred W Hetzel Journal: Lasers Surg Med Date: 2006-08 Impact factor: 4.025
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