Author
Listed:
- Molly A. Sowers
(Massachusetts Institute of Technology)
- Jessica R. McCombs
(Massachusetts Institute of Technology)
- Ying Wang
(University of Nebraska)
- Joseph T. Paletta
(University of Nebraska)
- Stephen W. Morton
(Koch Institute for Integrative Cancer Research, Institute for Soldier Nanotechnologies, Massachusetts Institute of Technology)
- Erik C. Dreaden
(Koch Institute for Integrative Cancer Research, Institute for Soldier Nanotechnologies, Massachusetts Institute of Technology)
- Michael D. Boska
(University of Nebraska Medical Center)
- M. Francesca Ottaviani
(Life and Environmental Sciences, University of Urbino, Loc. Corcicchia)
- Paula T. Hammond
(Koch Institute for Integrative Cancer Research, Institute for Soldier Nanotechnologies, Massachusetts Institute of Technology)
- Andrzej Rajca
(University of Nebraska)
- Jeremiah A. Johnson
(Massachusetts Institute of Technology)
Abstract
Stimuli-responsive multimodality imaging agents have broad potential in medical diagnostics. Herein, we report the development of a new class of branched-bottlebrush polymer dual-modality organic radical contrast agents—ORCAFluors—for combined magnetic resonance and near-infrared fluorescence imaging in vivo. These nitroxide radical-based nanostructures have longitudinal and transverse relaxation times that are on par with commonly used heavy-metal-based magnetic resonance imaging (MRI) contrast agents. Furthermore, these materials display a unique compensatory redox response: fluorescence is partially quenched by surrounding nitroxides in the native state; exposure to ascorbate or ascorbate/glutathione leads to nitroxide reduction and a concomitant 2- to 3.5-fold increase in fluorescence emission. This behaviour enables correlation of MRI contrast, fluorescence intensity and spin concentration with tissues known to possess high concentrations of ascorbate in mice. Our in vitro and in vivo results, along with our modular synthetic approach, make ORCAFluors a promising new platform for multimodality molecular imaging.
Suggested Citation
Molly A. Sowers & Jessica R. McCombs & Ying Wang & Joseph T. Paletta & Stephen W. Morton & Erik C. Dreaden & Michael D. Boska & M. Francesca Ottaviani & Paula T. Hammond & Andrzej Rajca & Jeremiah A. , 2014.
"Redox-responsive branched-bottlebrush polymers for in vivo MRI and fluorescence imaging,"
Nature Communications, Nature, vol. 5(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms6460
DOI: 10.1038/ncomms6460
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