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.
Metal-free
magnetic resonance imaging (MRI) agents could overcome
the established toxicity associated with metal-based agents in some
patient populations and enable new modes of functional MRI in vivo. Herein, we report nitroxide-functionalized brush-arm
star polymer organic radical contrast agents (BASP-ORCAs) that overcome
the low contrast and poor in vivo stability associated
with nitroxide-based MRI contrast agents. As a consequence of their
unique nanoarchitectures, BASP-ORCAs possess per-nitroxide transverse
relaxivities up to ∼44-fold greater than common nitroxides,
exceptional stability in highly reducing environments, and low toxicity.
These features combine to provide for accumulation of a sufficient
concentration of BASP-ORCA in murine subcutaneous tumors up to 20
h following systemic administration such that MRI contrast on par
with metal-based agents is observed. BASP-ORCAs are, to our knowledge,
the first nitroxide MRI contrast agents capable of tumor imaging over
long time periods using clinical high-field 1H MRI techniques.
We report a molecular design that provides an intravenously injectable organic radical contrast agent (ORCA) that has molecular r1 ≈ 5 mM−1s−1. The ORCA is based on spirocyclohexyl nitroxide radicals and polyethylene glycol chains conjugated to a generation 4 polypropylenimine dendrimers scaffold. The metal-free ORCA has a long shelf-life and provides selectively enhanced MRI in mice for over 1 h.
A series of sterically shielded pyrrolidine nitroxides were synthesized and their reduction by ascorbate (vitamin C) indicate that nitroxide 3 – a tetraethyl derivative of 3-carboxy-PROXYL – is reduced at the slowest rate among known nitroxides, i.e., at a 60-fold slower rate than that for 3-carboxy-PROXYL.
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