Seishiro Mimura scite author profile

Photodynamic therapy utilizing Photofrin has proven to be an effective modality that can be used in the treatment of a wide variety of solid tumors and luminal cancers. An argon pumped dye laser or excimer dye laser was used to deliver 630 nm light via quartz fibers passed through the biopsy channel subsequent to i.v. injection of photosensitizer. In this study, 64 patients with superficial cancers were treated in this manner but only 58 patients, including 21 with roentgenographically occult lung cancer, 8 with stage I lung cancer, 5 with esophageal cancer, 12 with gastric cancer, 8 with cervical cancer and 4 with bladder cancer were evaluable. Complete remission was obtained in 48 out of 58 cases (82.8%). There was no serious complication except skin photosensitivity, which was seen in 13 patients. We conclude that photodynamic therapy is efficacious in the treatment of superficial cancers where complete remission may be achieved.

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Cooperative clinical trial of photodynamic therapy with photofrin II and excimer dye laser for early gastric cancer

Mimura

Ito

Nagayo

et al. 1996

Lasers Surg. Med.

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Photodynamic therapy of 168 early stage cancers of the lung and oesophagus: a japanese multi-centre study

Hayata¹,

Kato²,

Furuse

et al. 1996

Laser Med Sci

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Cooperative clinical trial of photodynamic therapy with photofrin II and excimer dye laser for early gastric cancer

et al. 1996

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Progress of Photodynamic Therapy in Gastric Cancer

Mimura

Narahara

Otani

et al. 1999

Diagnostic and Therapeutic Endoscopy

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Progress of photodynamic therapy (PDT) in gastric cancer and the clinical outcome are described in this paper. (1) We included the whole lesion and a 5 mm margin in the field for irradiation. Marking by injection of India-ink showing the irradiation field was performed beforehand. (2) We established the standard light dose to be 90 J/cm2 for an argon dye laser and 60 J/cm2 for a pulse wave laser. (3) The size of cancerous lesion curable by PDT was expanded from 3 cm in diameter, i.e. 7 cm2 in area to 4 cm in diameter, i.e. 13 cm2 by employing a new excimer dye laser model, which could emit 4mJ/pulse with 80 Hz pulse frequency. (4) The depth of cancer invasion which could be treated by PDT was increased from about 4 mm, i.e. the superficial part of the submucosal layer (SM-1) to more than 10 mm in depth, i.e. the proper muscular layer. These improvements owe much to the pulse laser, the photodynamic action induced by which permits deeper penetration than that of a continuous wave laser. (5) We employed a side-viewing fiberscope for gastric PDT to irradiate the lesion from an angle of 90°. (6) We designed a simple cut quartz fiber for photoradiation with a spiral spring thickened toward the end. (7) We developed an endoscopic device for photoradiation in PDT which achieves accurate and efficient irradiation. As a result of these improvements a higher cure rate was obtained even with a lower light dose of irradiation.

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Seishiro Mimura

Photodynamic Therapy for Cancers: A Clinical Trial of Porfimer Sodium in Japan

Cooperative clinical trial of photodynamic therapy with photofrin II and excimer dye laser for early gastric cancer

Photodynamic therapy of 168 early stage cancers of the lung and oesophagus: a japanese multi-centre study

Cooperative clinical trial of photodynamic therapy with photofrin II and excimer dye laser for early gastric cancer

Progress of Photodynamic Therapy in Gastric Cancer

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