Casein-Coated Fe5C2 Nanoparticles with Superior r2 Relaxivity for Liver-Specific Magnetic Resonance Imaging
Iron oxide nanoparticles have been extensively used as T2 contrast agents for liver-specific magnetic resonance imaging (MRI). The applications, however, have been limited by their mediocre magnetism and r2 relaxivity. Recent studies show that Fe5C2 nanoparticles can be prepared by high temperature...
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| Published in: | Theranostics Vol. 5; no. 11; pp. 1225 - 1232 |
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| Abstract | Iron oxide nanoparticles have been extensively used as T2 contrast agents for liver-specific magnetic resonance imaging (MRI). The applications, however, have been limited by their mediocre magnetism and r2 relaxivity. Recent studies show that Fe5C2 nanoparticles can be prepared by high temperature thermal decomposition. The resulting nanoparticles possess strong and air stable magnetism, suggesting their potential as a novel type of T2 contrast agent. To this end, we improve the synthetic and surface modification methods of Fe5C2 nanoparticles, and investigated the impact of size and coating on their performances for liver MRI. Specifically, we prepared 5, 14, and 22 nm Fe5C2 nanoparticles and engineered their surface by: 1) ligand addition with phospholipids, 2) ligand exchange with zwitterion-dopamine-sulfonate (ZDS), and 3) protein adsorption with casein. It was found that the size and surface coating have varied levels of impact on the particles' hydrodynamic size, viability, uptake by macrophages, and r2 relaxivity. Interestingly, while phospholipid- and ZDS-coated Fe5C2 nanoparticles showed comparable r2, the casein coating led to an r2 enhancement by more than 2 fold. In particular, casein coated 22 nm Fe5C2 nanoparticle show a striking r2 of 973 mM(-1)s(-1), which is one of the highest among all of the T2 contrast agents reported to date. Small animal studies confirmed the advantage of Fe5C2 nanoparticles over iron oxide nanoparticles in inducing hypointensities on T2-weighted MR images, and the particles caused little toxicity to the host. The improvements are important for transforming Fe5C2 nanoparticles into a new class of MRI contrast agents. The observations also shed light on protein-based surface modification as a means to modulate contrast ability of magnetic nanoparticles. |
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| AbstractList | Iron oxide nanoparticles have been extensively used as T2 contrast agents for liver-specific magnetic resonance imaging (MRI). The applications, however, have been limited by their mediocre magnetism and r2 relaxivity. Recent studies show that Fe5C2 nanoparticles can be prepared by high temperature thermal decomposition. The resulting nanoparticles possess strong and air stable magnetism, suggesting their potential as a novel type of T2 contrast agent. To this end, we improve the synthetic and surface modification methods of Fe5C2 nanoparticles, and investigated the impact of size and coating on their performances for liver MRI. Specifically, we prepared 5, 14, and 22 nm Fe5C2 nanoparticles and engineered their surface by: 1) ligand addition with phospholipids, 2) ligand exchange with zwitterion-dopamine-sulfonate (ZDS), and 3) protein adsorption with casein. It was found that the size and surface coating have varied levels of impact on the particles' hydrodynamic size, viability, uptake by macrophages, and r2 relaxivity. Interestingly, while phospholipid- and ZDS-coated Fe5C2 nanoparticles showed comparable r2, the casein coating led to an r2 enhancement by more than 2 fold. In particular, casein coated 22 nm Fe5C2 nanoparticle show a striking r2 of 973 mM(-1)s(-1), which is one of the highest among all of the T2 contrast agents reported to date. Small animal studies confirmed the advantage of Fe5C2 nanoparticles over iron oxide nanoparticles in inducing hypointensities on T2-weighted MR images, and the particles caused little toxicity to the host. The improvements are important for transforming Fe5C2 nanoparticles into a new class of MRI contrast agents. The observations also shed light on protein-based surface modification as a means to modulate contrast ability of magnetic nanoparticles. Iron oxide nanoparticles have been extensively used as T 2 contrast agents for liver-specific magnetic resonance imaging (MRI). The applications, however, have been limited by their mediocre magnetism and r 2 relaxivity. Recent studies show that Fe 5 C 2 nanoparticles can be prepared by high temperature thermal decomposition. The resulting nanoparticles possess strong and air stable magnetism, suggesting their potential as a novel type of T 2 contrast agent. To this end, we improve the synthetic and surface modification methods of Fe 5 C 2 nanoparticles, and investigated the impact of size and coating on their performances for liver MRI. Specifically, we prepared 5, 14, and 22 nm Fe 5 C 2 nanoparticles and engineered their surface by: 1) ligand addition with phospholipids, 2) ligand exchange with zwitterion-dopamine-sulfonate (ZDS), and 3) protein adsorption with casein. It was found that the size and surface coating have varied levels of impact on the particles' hydrodynamic size, viability, uptake by macrophages, and r 2 relaxivity. Interestingly, while phospholipid- and ZDS-coated Fe 5 C 2 nanoparticles showed comparable r 2 , the casein coating led to an r 2 enhancement by more than 2 fold. In particular, casein coated 22 nm Fe 5 C 2 nanoparticle show a striking r 2 of 973 mM -1 s -1 , which is one of the highest among all of the T 2 contrast agents reported to date. Small animal studies confirmed the advantage of Fe 5 C 2 nanoparticles over iron oxide nanoparticles in inducing hypointensities on T 2 -weighted MR images, and the particles caused little toxicity to the host. The improvements are important for transforming Fe 5 C 2 nanoparticles into a new class of MRI contrast agents. The observations also shed light on protein-based surface modification as a means to modulate contrast ability of magnetic nanoparticles. |
| Author | Chen, Hongmin Zhen, Zipeng Hu, Kai Tang, Wei Rink, David E Cowger, Taku A Zhang, Weizhong Wang, Geoffrey D Todd, Trever J Xie, Jin |
| AuthorAffiliation | 2. Department of Chemistry, Wuhan University, Wuhan, Hubei, China 1. Department of Chemistry, University of Georgia, Athens, GA 30602, USA 3. Bio-Imaging Research Center, the University of Georgia, Athens, Georgia 30602, USA |
| AuthorAffiliation_xml | – name: 2. Department of Chemistry, Wuhan University, Wuhan, Hubei, China – name: 3. Bio-Imaging Research Center, the University of Georgia, Athens, Georgia 30602, USA – name: 1. Department of Chemistry, University of Georgia, Athens, GA 30602, USA |
| Author_xml | – sequence: 1 givenname: Taku A surname: Cowger fullname: Cowger, Taku A organization: 1. Department of Chemistry, University of Georgia, Athens, GA 30602, USA – sequence: 2 givenname: Wei surname: Tang fullname: Tang, Wei organization: 1. Department of Chemistry, University of Georgia, Athens, GA 30602, USA – sequence: 3 givenname: Zipeng surname: Zhen fullname: Zhen, Zipeng organization: 1. Department of Chemistry, University of Georgia, Athens, GA 30602, USA – sequence: 4 givenname: Kai surname: Hu fullname: Hu, Kai organization: 2. Department of Chemistry, Wuhan University, Wuhan, Hubei, China – sequence: 5 givenname: David E surname: Rink fullname: Rink, David E organization: 1. Department of Chemistry, University of Georgia, Athens, GA 30602, USA – sequence: 6 givenname: Trever J surname: Todd fullname: Todd, Trever J organization: 1. Department of Chemistry, University of Georgia, Athens, GA 30602, USA – sequence: 7 givenname: Geoffrey D surname: Wang fullname: Wang, Geoffrey D organization: 1. Department of Chemistry, University of Georgia, Athens, GA 30602, USA – sequence: 8 givenname: Weizhong surname: Zhang fullname: Zhang, Weizhong organization: 1. Department of Chemistry, University of Georgia, Athens, GA 30602, USA – sequence: 9 givenname: Hongmin surname: Chen fullname: Chen, Hongmin organization: 1. Department of Chemistry, University of Georgia, Athens, GA 30602, USA – sequence: 10 givenname: Jin surname: Xie fullname: Xie, Jin organization: 1. Department of Chemistry, University of Georgia, Athens, GA 30602, USA ; 3. Bio-Imaging Research Center, the University of Georgia, Athens, Georgia 30602, USA |
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| Snippet | Iron oxide nanoparticles have been extensively used as T2 contrast agents for liver-specific magnetic resonance imaging (MRI). The applications, however, have... Iron oxide nanoparticles have been extensively used as T 2 contrast agents for liver-specific magnetic resonance imaging (MRI). The applications, however, have... |
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| Title | Casein-Coated Fe5C2 Nanoparticles with Superior r2 Relaxivity for Liver-Specific Magnetic Resonance Imaging |
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