Dextran‐Coated Antiferromagnetic MnO Nanoparticles for a T1‐MRI Contrast Agent with High Colloidal Stability |
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| Authors: | Herbert R Neves Rafael A Bini Jeam H O Barbosa Carlos E G Salmon Laudemir C Varanda |
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| Affiliation: | 1. Colloidal Materials Group, Chemistry Institute of S?o Carlos, University of S?o Paulo, S?o Carlos, S?o Paulo, Brazil;2. Federal University of Technology – UTFPR, Campus Toledo, Toledo, Paraná, Brazil;3. FFCLRP, University of S?o Paulo, Ribeir?o Preto, S?o Paulo, Brazil |
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| Abstract: | A simple approach to synthesize carboxymethyl dextran‐coated MnO nanoparticles (CMDex‐MnONPs) with high colloidal stability in physiological saline solutions is described here for potential applications as a magnetic resonance imaging (MRI) T1 contrast agent. The thermal decomposition methodology is used to produce uniform MnONPs with an average size of around 20 nm, and its hydrophobic surface is modified with CMDex molecules, conferring hydrophilic properties. After CMDex coating, the nanoparticle presents high colloidal stability in concentrations ranging from 10 to 50 μg mL?1, average hydrodynamic size (Z‐average) of 130 nm, polydispersity degree of ≈12%, and negative surface charge in both simulated body fluid solutions and pure water with zeta‐potential of –20 and –40 mV, respectively. The CMDex‐MnONPs with 20 nm show antiferromagnetic behavior at room temperature, and the magnetic properties are found to be strongly dependent of the nanoparticle size, increasing the contribution of the ferromagnetic Mn3O4 phase with decreasing size for nanoparticles about 3 nm. Cytotoxicity evaluation in cancerous and noncancerous cells in the range of 5.0–50.0 μg mL?1 shows low toxicity for cancerous cells and lack of the same for healthy cells lines. Related to the magnetic properties, CMDex‐MnONP presents significant r1 relaxivity and low r2/r1 relaxivity ratio. The results suggest that these nanoparticles display characteristics for potential applications as an MRI T1 contrast agent. |
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| Keywords: | antiferromagnetic colloidal stability MnO nanoparticles MRI T1 contrast agents |
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