Xiaoqin Chi scite author profile

Spherical superparamagnetic iron oxide nanoparticles have been developed as T 2 -negative contrast agents for magnetic resonance imaging in clinical use because of their biocompatibility and ease of synthesis; however, they exhibit relatively low transverse relaxivity. Here we report a new strategy to achieve high transverse relaxivity by controlling the morphology of iron oxide nanoparticles. We successfully fabricate size-controllable octapod iron oxide nanoparticles by introducing chloride anions. The octapod iron oxide nanoparticles (edge length of 30 nm) exhibit an ultrahigh transverse relaxivity value (679.3±30 mM À 1 s À 1 ), indicating that these octapod iron oxide nanoparticles are much more effective T 2 contrast agents for in vivo imaging and small tumour detection in comparison with conventional iron oxide nanoparticles, which holds great promise for highly sensitive, early stage and accurate detection of cancer in the clinic.

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Engineered Iron-Oxide-Based Nanoparticles as Enhanced T₁ Contrast Agents for Efficient Tumor Imaging

Zhou

et al. 2013

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We report the design and synthesis of small-sized zwitterion-coated gadolinium-embedded iron oxide (GdIO) nanoparticles, which exhibit a strong T1 contrast effect for tumor imaging through enhanced permeation and retention effect and the ability to clear out of the body in living subjects. The combination of spin-canting effects and the collection of gadolinium species within small-sized GdIO nanoparticles led to a significantly enhanced T1 contrast effect. For example, GdIO nanoparticles with a diameter of ~4.8 nm exhibited a high r1 relaxivity of 7.85 mM−1 · S−1 and a low r2/r1 ratio of 5.24. After being coated with zwitterionic dopamine sulfonate molecules, the 4.8 nm GdIO nanoparticles showed a steady hydrodynamic diameter (~5.2 nm) in both PBS buffer and fetal bovine serum solution, indicating a low nonspecific protein absorption. This study provides a valuable strategy for the design of highly sensitive iron-oxide-based T1 contrast agents with relatively long circulation half-lives (~50 min), efficient tumor passive targeting (SKOV3, human ovarian cancer xenograft tumor as a model), and the possibility of rapid renal clearance after tumor imaging.

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Tunable T₁ and T₂ contrast abilities of manganese-engineered iron oxide nanoparticles through size control

et al. 2014

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In this paper, we demonstrate the tunable T1 and T2 contrast abilities of engineered iron oxide nanoparticles with high performance for liver contrast-enhanced magnetic resonance imaging (MRI) in mice. To enhance the diagnostic accuracy of MRI, large numbers of contrast agents with T1 or T2 contrast ability have been widely explored. The comprehensive investigation of high-performance MRI contrast agents with controllable T1 and T2 contrast abilities is of high importance in the field of molecular imaging. In this study, we synthesized uniform manganese-doped iron oxide (MnIO) nanoparticles with controllable size from 5 to 12 nm and comprehensively investigated their MRI contrast abilities. We revealed that the MRI contrast effects of MnIO nanoparticles are highly size-dependent. By controlling the size of MnIO nanoparticles, we can achieve T1-dominated, T2-dominated, and T1-T2 dual-mode MRI contrast agents with much higher contrast enhancement than the corresponding conventional iron oxide nanoparticles.

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Nanoprobes for in vitro diagnostics of cancer and infectious diseases

et al. 2012

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Real-Time Monitoring of Arsenic Trioxide Release and Delivery by Activatable T₁ Imaging

et al. 2015

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Delivery of arsenic trioxide (ATO), a clinical anticancer drug, has drawn much attention to improve its pharmacokinetics and bioavailability for efficient cancer therapy. Real-time and in situ monitoring of ATO behaviors in vivo is highly desirable for efficient tumor treatment. Herein, we report an ATO-based multifunctional drug delivery system that efficiently delivers ATO to treat tumors and allows real-time monitoring of ATO release by activatable T1 imaging. We loaded water-insoluble manganese arsenite complexes, the ATO prodrug, into hollow silica nanoparticles to form a pH-sensitive multifunctional drug delivery system. Acidic stimuli triggered the simultaneous release of manganese ions and ATO, which dramatically increased the T1 signal (bright signal) and enabled real-time visualization and monitoring of ATO release and delivery. Moreover, this smart multifunctional drug delivery system significantly improved ATO efficacy and strongly inhibited the growth of solid tumors without adverse side effects. This strategy has great potential for real-time monitoring of theranostic drug delivery in cancer diagnosis and therapy.

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Xiaoqin Chi

Octapod iron oxide nanoparticles as high-performance T2 contrast agents for magnetic resonance imaging

Engineered Iron-Oxide-Based Nanoparticles as Enhanced T₁ Contrast Agents for Efficient Tumor Imaging

Tunable T₁ and T₂ contrast abilities of manganese-engineered iron oxide nanoparticles through size control

Nanoprobes for in vitro diagnostics of cancer and infectious diseases

Real-Time Monitoring of Arsenic Trioxide Release and Delivery by Activatable T₁ Imaging

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Xiaoqin Chi

Octapod iron oxide nanoparticles as high-performance T2 contrast agents for magnetic resonance imaging

Engineered Iron-Oxide-Based Nanoparticles as Enhanced T1 Contrast Agents for Efficient Tumor Imaging

Tunable T1 and T2 contrast abilities of manganese-engineered iron oxide nanoparticles through size control

Nanoprobes for in vitro diagnostics of cancer and infectious diseases

Real-Time Monitoring of Arsenic Trioxide Release and Delivery by Activatable T1 Imaging

Contact Info

Product

Resources

About

Engineered Iron-Oxide-Based Nanoparticles as Enhanced T₁ Contrast Agents for Efficient Tumor Imaging

Tunable T₁ and T₂ contrast abilities of manganese-engineered iron oxide nanoparticles through size control

Real-Time Monitoring of Arsenic Trioxide Release and Delivery by Activatable T₁ Imaging