Robie Hennigar scite author profile

Members of a family of Ru(II)-appended pyrenylethynylene dyads were synthesized, characterized according to their photophysical and photobiological properties, and evaluated for their collective potential as photosensitizers for metal-organic photodynamic therapy. The dyads in this series possess lowest-lying (3)IL-based excited states with lifetimes that can be tuned from 22 to 270 μs in fluid solution and from 44 to 3440 μs in glass at 77 K. To our knowledge, these excited-state lifetimes are the longest reported for Ru(II)-based dyads containing only one organic chromophore and lacking terminal diimine groups. These excited states proved to be extremely sensitive to trace amounts of oxygen, owing to their long lifetimes and very low radiative rates. Herein, we demonstrate that (3)IL states of this nature are potent photodynamic agents, exhibiting the largest photocytotoxicity indices reported to date with nanomolar light cytotoxicities at very short drug-to-light intervals. Importantly, these new agents are robust enough to maintain submicromolar PDT in pigmented metastatic melanoma cells, where the presence of melanin in combination with low oxygen tension is known to compromise PDT. This activity underscores the potential of metal-organic PDT as an alternate treatment strategy for challenging environments such as malignant melanoma.

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Ru(II) dyads derived from α-oligothiophenes: A new class of potent and versatile photosensitizers for PDT

Shi

Monro

Hennigar

et al. 2015

Coordination Chemistry Reviews

253

256

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Novel Osmium‐based Coordination Complexes as Photosensitizers for Panchromatic Photodynamic Therapy

Lazic¹,

Kaspler²,

Shi

et al. 2017

Photochem & Photobiology

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Cancer remains a major global malaise requiring the advent of new, efficient and low-cost treatments. Photodynamic therapy, which combines a photosensitizer and photons to produce cytotoxic reactive oxygen species, has been established as an effective cancer treatment but has yet to become mainstream. One of the main limitations has been the paucity of photosensitizers that are effective over a wide range of wavelengths, can exert their cytotoxic effects in hypoxia, are easily synthesized and produce few if any side effects. To address these shortfalls, three new osmium-based photosensitizers (TLD1822, TLD1824 and TLD1829) were synthesized and their photophysical and photobiological attributes determined. These photosensitizers are panchromatic (i.e. black absorbers), activatable from 200 to 900 nm and have strong resistance to photobleaching. In vitro studies show photodynamic therapy efficacy with both red and near-infrared light in normoxic and hypoxic conditions, which translated to good in vivo efficacy of TLD1829 in a subcutaneous murine colon cancer model.

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Quotient-Rule-Integration-by-Parts

Deveau

Hennigar

2012

The College Mathematics Journal

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Robie Hennigar

Exploitation of Long-Lived ³IL Excited States for Metal–Organic Photodynamic Therapy: Verification in a Metastatic Melanoma Model

Ru(II) dyads derived from α-oligothiophenes: A new class of potent and versatile photosensitizers for PDT

Novel Osmium‐based Coordination Complexes as Photosensitizers for Panchromatic Photodynamic Therapy

Quotient-Rule-Integration-by-Parts

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Robie Hennigar

Exploitation of Long-Lived 3IL Excited States for Metal–Organic Photodynamic Therapy: Verification in a Metastatic Melanoma Model

Ru(II) dyads derived from α-oligothiophenes: A new class of potent and versatile photosensitizers for PDT

Novel Osmium‐based Coordination Complexes as Photosensitizers for Panchromatic Photodynamic Therapy

Quotient-Rule-Integration-by-Parts

Contact Info

Product

Resources

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Exploitation of Long-Lived ³IL Excited States for Metal–Organic Photodynamic Therapy: Verification in a Metastatic Melanoma Model