Meredith Wright scite author profile

Lutetium texaphyrin, PCI-0123, is a pure, water-soluble photosensitizer with a large broad absorption band centered at 732 nm. The compound was tested for photodynamic therapy (PDT) effectiveness in a murine mammary cancer model. The texaphyrin macrocycle as illustrated by magnetic resonance imaging and 14C-radiolabeled texaphyrin studies was shown to be tumor selective; a tumor-to-muscle ratio of 10.55 was seen after 5 h. Lutetium texaphyrin, at a drug dose of 20 mumol/kg with irradiation 5 h postinjection at 150 J/cm2 and 150 mW/cm2, had significant efficacy (P < 0.0001) in treating neoplasms of moderate size (40 +/- 14 mm3) and also had significant efficacy (P < 0.0001) in treating larger neoplasms (147 +/- 68 mm3). The PDT efficacy was correlated with the time interval between PCI-0123 administration and light exposure. A 100% cure rate was achieved when photoirradiation took place 3 h postinjection compared to 50% for 5 h using 10 mumol/kg and 150 J/cm2 at 150 mW/cm2. The PDT efficacy was attributable to the selective uptake/retention of the texaphyrin photosensitizer in addition to the depth of light penetration achievable at the 732 nm laser irradiation.

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Identification of a Wnt-Responsive Signal Transduction Pathway in Primary Endothelial Cells

Wright¹,

Aikawa²,

Szeto³

et al. 1999

Biochemical and Biophysical Research Communications

116

100

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Phototherapy of Cancer and Atheromatous Plaque with Texaphyrins

Woodburn¹,

Fan²,

Kessel³

et al. 1996

Journal of Clinical Laser Medicine & Surgery

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Cancer and cardiovascular disease are the leading causes of death in the western world. Photodynamic therapy (PDT) has demonstrated activity in the treatment of superficial cancerous lesions and as an intraoperative adjunct during surgical debulking. Texaphyrins are pure, synthetic water-soluble macrocycles that localize in both cancerous lesions and atheromatous plaque. Lutetium texaphyrin (PCI-0123) is activated by tissue-penetrating far red light (720-760 nm). Patient diagnosis and treatment planning is possible via magnetic resonance imaging (MRI) with the paramagnetic gadolinium texaphyrin (PCI-0120) or via fluorescence imaging using the diamagnetic PCI-0123. In this study it is shown that texaphyrins localize selectively in cancer and atheromatous plaque. PDT with PCI-0123 is found to cause selective photodamage to the diseased tissue. Specifically, PCI-0123 acts to eradicate the SMT-F murine mammary tumors and diet-induced atheromatous plaque in rabbits.

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Metal Complex Conjugates of Antisense DNA Which Display Ribozyme-Like Activity

et al. 1997

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Synthesis and Kinetic Properties of Ribozyme Analogues Prepared Using Phosphoramidite Derivatives of Dysprosium(III) Texaphyrin

et al. 1997

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Meredith Wright

Lutetium Texaphyrin (PCI‐0123): A Near‐Infrared, Water‐Soluble Photosensitizer

Identification of a Wnt-Responsive Signal Transduction Pathway in Primary Endothelial Cells

Phototherapy of Cancer and Atheromatous Plaque with Texaphyrins

Metal Complex Conjugates of Antisense DNA Which Display Ribozyme-Like Activity

Synthesis and Kinetic Properties of Ribozyme Analogues Prepared Using Phosphoramidite Derivatives of Dysprosium(III) Texaphyrin

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