Abstract
Herein, two water‐soluble PROXYL‐based magnetic resonance imaging (MRI) macromolecular organic contrast agents (mORCAs) are designed and synthesized: linear and cross‐linked PCE‐mPEG‐Ppa‐PROXYL. They are prepared by conjugating linear and cross‐linked poly(carboxylate ester) (PCE) with poly(ethylene glycol) (mPEG2000)‐modified nitroxides (PROXYL), respectively. Both mORCAs form self‐assembled aggregates in an aqueous phase and PROXYL is protected inside a hydrophobic core to achieve great resistance to reduction in the physiological environment, and they have low toxicity. Since cross‐linked PCE‐mPEG‐Ppa‐PROXYL possess a branched architecture, its self‐assembled aggregate is more stable and compact with a greater particle size. Cross‐linked PCE‐mPEG‐Ppa‐PROXYL outperform the linear one in the following aspects: 1) its longitudinal relaxivity (r 1 = 0.79 mm −1 s−1) is higher than that of the linear one (r 1 = 0.64 mm −1 s−1) and both excel the best mORCA reported so far (r 1 = 0.42 mm −1 s−1); 2) its blood retention time (≈48 h) is longer than that of its linear counterpart (≈10 h); 3) cross‐linked PCE‐mPEG‐Ppa‐PROXYL provided better MR imaging contrast resolution in normal organs (liver and kidney) and tumor of mice than the linear one. Overall, cross‐linked PCE‐mPEG‐Ppa‐PROXYL may have great potential to be a novel metal‐free macromolecular contrast agent for MR imaging.
Highlights
Two water-soluble PROXYL-based magnetic resonance imaging (MRI) macromolecular organic contrast agents are designed and synthesized: linear and cross-linked PCE-mPEG-Ppa-PROXYL
It has been demonstrated that stable nitroxides (e.g., 2,2,5,5-tetramethyl1-pyrrolidinyl-N-oxyl (PROXYL), 2,2,6,6tetramethylpiperidinyl-1-oxyl (TEMPO), etc.) with unpaired electrons were capable of offering MR imaging contrast via shortening the relaxation of 1H protons of water.[2]
We evaluated the feasibility of cross-linked PCE-mPEG-PpaPROXYL and linear PCE-mPEG-Ppa-PROXYL as MRI contrast agents by measuring their longitudinal relaxivity (r1) using a clinical 3.0 T MRI scanner
Summary
Two water-soluble PROXYL-based magnetic resonance imaging (MRI) macromolecular organic contrast agents (mORCAs) are designed and synthesized: linear and cross-linked PCE-mPEG-Ppa-PROXYL. The self-assembled aggregates from the crosslinked polymer were more rigid than those from the linear one, they still had enough flexibility to meet full and rapid contact between the single electron of PROXYL and the surrounding water, the structural rigidity had no adverse effect on the relaxivity of the cross-linked PCE-mPEG-Ppa-PROXYL.
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