William C. Dow 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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Molecular stereochemistry of two intermediate-spin complexes. Iron(II) phthalocyanine and manganese(II) phthalocyanine

Kirner¹,

Dow²,

Scheidt³

1976

Inorg. Chem.

201

128

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Iron(II) and Manganese(II) Phthalocyanines tetrahedrally coordinated Fe. The Mossbauer shift for octahedral Fe2+ appears to be 0.90 mm/s. Knowledge of isomer shifts for the compounds Fe[S2CN(n-Bu)2b and Fe[S2C-N(CH2)4]3, in which iron atoms are in the trivalent oxidation state, would be extremely valuable in order to establish its variation with valence in octahedrally coordinated iron compounds.Acknowledgment. Financial support for this research effort by the National Science Foundation and the Robert A. Welch Foundation, Houston, Tex., is gratefully acknowledged. The comments of Dr. R. D. Shannon have been very helpful in the preparation of this manuscript, and we wish to thank him also for communicating to us his results on Fe2SiS4 and Fe2GeS4 prior to their publication.

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Gadolinium(III) texaphyrin: a tumor selective radiation sensitizer that is detectable by MRI.

Young

Fan

Harriman

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

194

125

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Gadolinium(III) texaphyrin (Gd-tex2+) is representative of a new class of radiation sensitizers detectable by magnetic resonance imaging (MRI). This porphyrin-like complex has a high electron affinity [E1/2 (red.) approximately = -0.08 V versus normal hydrogen electrode] and forms a long-lived pi-radical cation upon exposure to hydrated electrons, reducing ketyl radicals, or superoxide ions. Consistent with these chemical findings, Gd-tex2+ was found to be an efficient radiation sensitizer in studies carried out with HT29 cells in in vitro as well as in in vivo single and multifraction irradiation studies with a murine mammary carcinoma model. Selective localization of Gd-tex2+ in tumors was confirmed by MRI scanning.

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Molecular stereochemistry of phthalocyanatozinc(II)

Scheidt¹,

Dow²

1977

J. Am. Chem. Soc.

165

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Gadolinium complexation by a new diethylenetriaminepentaacetic acid-amide ligand. Amide oxygen coordination

Konings¹,

Dow²,

Love³

et al. 1990

Inorg. Chem.

138

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William C. Dow

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

Molecular stereochemistry of two intermediate-spin complexes. Iron(II) phthalocyanine and manganese(II) phthalocyanine

Gadolinium(III) texaphyrin: a tumor selective radiation sensitizer that is detectable by MRI.

Molecular stereochemistry of phthalocyanatozinc(II)

Gadolinium complexation by a new diethylenetriaminepentaacetic acid-amide ligand. Amide oxygen coordination

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