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Biocompatible magnetite/gold nanohybrid contrast agents via green chemistry for MRI and CT bioimaging

Publication Type : Journal Article

Thematic Areas : Nanosciences and Molecular Medicine

Publisher : ACS Applied Materials and Interfaces

Source : ACS Applied Materials and Interfaces, Volume 4, Number 1, p.251-260 (2012)

Url : http://www.scopus.com/inward/record.url?eid=2-s2.0-84856299725&partnerID=40&md5=191acced6147130bf0b08e381a97aec0

Keywords : Apoptotic, Aqueous chemistry, article, Bio-imaging, biocompatibility, Biocompatible, biomaterial, Cell culture, Cell death, Cell Survival, Cell tracking, cell viability, Cellular uptake, chemistry, Chlorination, Chlorine compounds, Coated Materials, computer assisted tomography, Computerized tomography, confocal microscopy, Contrast agent, Contrast Media, contrast medium, CT, Cytology, evaluation, ferric chloride, Gold, Grape seeds, Green chemistry, Green Chemistry Technology, green synthesis, High concentration, human, Human mesenchymal stem cells (hMSCs), Humans, Hybrid nanomaterials, Hybrid nanoparticle, hybrid nanoparticles, Imaging techniques, instrumentation, Iron oxides, Iron precursors, Magnetic Resonance Imaging, magnetite nanoparticle, Magnetite Nanoparticles, mesenchymal stem cell, Mesenchymal Stem Cells, methodology, Multi-modal, Nano-gold, Nanohybrids, Nanomagnetics, nanomaterial, Nanoparticles, Nanostructured materials, nuclear magnetic resonance imaging

Campus : Kochi

School : Center for Nanosciences

Center : Amrita Center for Nanosciences and Molecular Medicine Move, Nanosciences

Department : Nanosciences

Year : 2012

Abstract : Magnetite/gold (Fe 3O 4/Au) hybrid nanoparticles were synthesized from a single iron precursor (ferric chloride) through a green chemistry route using grape seed proanthocyanidin as the reducing agent. Structural and physicochemical characterization proved the nanohybrid to be crystalline, with spherical morphology and size ∼35 nm. Magnetic resonance imaging and magnetization studies revealed that the Fe 3O 4 component of the hybrid provided superparamagnetism, with dark T 2 contrast and high relaxivity (124.2 ± 3.02 mM -1 s -1). Phantom computed tomographic imaging demonstrated good X-ray contrast, which can be attributed to the presence of the nanogold component in the hybrid. Considering the potential application of this bimodal nanoconstruct for stem cell tracking and imaging, we have conducted compatibility studies on human Mesenchymal Stem Cells (hMSCs), wherein cell viability, apoptosis, and intracellular reactive oxygen species (ROS) generation due to the particle-cell interaction were asessed. It was noted that the material showed good biocompatibility even for high concentrations of 500 μg/mL and up to 48 h incubation, with no apoptotic signals or ROS generation. Cellular uptake of the nanomaterial was visualized using confocal microscopy and prussian blue staining. The presence of the nanohybrids were clearly visualized in the intracytoplasmic region of the cell, which is desirable for efficient imaging of stem cells in addition to the cytocompatible nature of the hybrids. Our work is a good demonstrative example of the use of green aqueous chemistry through the employment of phytochemicals for the room temperature synthesis of complex hybrid nanomaterials with multimodal functionalities. © 2011 American Chemical Society.

Cite this Research Publication : S. Narayanan, Sathy, B. N., Dr. Ullas Mony, Koyakutty, M., Shantikumar V Nair, and Dr. Deepthy Menon, “Biocompatible magnetite/gold nanohybrid contrast agents via green chemistry for MRI and CT bioimaging”, ACS Applied Materials and Interfaces, vol. 4, pp. 251-260, 2012.

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