Marie Ange d'Hallewin scite author profile

Objective To determine the use of hypericin instillation for the fluorescent detection of papillary bladder cancer and carcinoma in situ. Patients and methods Eighty-seven patients with papillary bladder cancer and/or carcinoma in situ received instillations with 40 mL of an 8 mmol/L hypericin solution for at least 2 h. Fluorescent excitation with blue light was effective for up to 16 h, and biopsies were examined by fluorescence microscopy. Results There were no side-effects reported, no photobleaching and all papillary lesions fluoresced red. The sensitivity and specificity for detecting carcinoma in situ was 94% and 95%, respectively. An interval of 4 months is recommended after BCG instillations before using this test. Fluorescence microscopy showed that hypericin was selectively localized in the epithelium. Conclusions Hypericin-induced fluorescence has a high sensitivity and specificity for detecting bladder cancer. After 4 months there are few false-positive results in patients treated with BCG.

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Fluorescence Detection of Bladder Cancer: A Review

d'Hallewin

2002

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Necrotic and apoptotic features of cell death in response to Foscan® photosensitization of HT29 monolayer and multicell spheroids

Marchal¹,

Fadloun²,

Maugain³

et al. 2005

Biochemical Pharmacology

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Biodistribution of hypericin in orthotopic transitional cell carcinoma bladder tumors: Implication for whole bladder wall photodynamic therapy

Kamuhabwa

Cosserat-Gérardin

Didelon

et al. 2001

Intl Journal of Cancer

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In a recent clinical study, we reported a selective uptake of hypericin in superficial bladder tumors. The results suggested that hypericin, a potent photosensitizer, could be used not only for diagnosis but also for photodynamic therapy (PDT) of superficial bladder tumors. In the present study, we investigated the biodistribution of hypericin in an orthotopic rat bladder tumor model by assessing the extent of hypericin penetration and the kinetics of accumulation into rat bladder tumors and normal bladder wall. Hypericin (8 or 30 M) was instilled into the bladder via the catheter for 1, 2 or 4 hr. The fluorescence of hypericin in the bladder tumors and normal bladder was documented using fluorescence microscopy. In situ quantification of hypericin fluorescence in the tumor or normal bladder was performed using the laserinduced fluorescence technique. There was much more hypericin fluorescence in the tumor than in the normal bladder, with the tumor-to-normal-bladder ratio mounting to 12:1 after 4 hr of hypericin (30 M) instillation. Moreover, hypericin was retained in the tumor for at least 1 hr before it was gradually lost from the tissue. Microscopically, the fluorescence of hypericin was restricted to the urothelial tumor and normal urothelium without fluorescence in the submucosa and the muscle layers. Subsequently no hypericin was detected in plasma, indicating that under these conditions systemic side effects should not be expected. Because the conditions used in this study were similar to those used in our previous clinical study, it is therefore likely that whole bladder wall PDT in the clinic under these conditions will produce selective urothelial tumor destruction without causing damage to the underlying muscle layers.

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Correlation between in vivo pharmacokinetics, intratumoral distribution and photodynamic efficiency of liposomal mTHPC

Lassalle

Dumas

Gräfe

et al. 2009

Journal of Controlled Release

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