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1.
Contrast Media Mol Imaging ; 2019: 2183051, 2019.
Article in English | MEDLINE | ID: mdl-31281232

ABSTRACT

The poor retention and survival of cells after transplantation to solid tissue represent a major obstacle for the effectiveness of stem cell-based therapies. The ability to track stem cells in vivo can lead to a better understanding of the biodistribution of transplanted cells, in addition to improving the analysis of stem cell therapies' outcomes. Here, we described the use of a carbon nanotube-based contrast agent (CA) for X-ray computed tomography (CT) imaging as an intracellular CA to label bone marrow-derived mesenchymal stem cells (MSCs). Porcine MSCs were labeled without observed cytotoxicity. The CA consists of a hybrid material containing ultra-short single-walled carbon nanotubes (20-80 nm in length, US-tubes) and Bi(III) oxo-salicylate clusters which contain four Bi3+ ions per cluster (Bi4C). The CA is thus abbreviated as Bi4C@US-tubes.


Subject(s)
Bismuth , Contrast Media/chemistry , Mesenchymal Stem Cell Transplantation , Nanotubes, Carbon , Staining and Labeling/methods , Stem Cells/cytology , Tomography, X-Ray Computed/methods , Animals , Humans , Mesenchymal Stem Cells/cytology , Swine , Tissue Distribution
2.
Contrast Media Mol Imaging ; 2018: 2853736, 2018.
Article in English | MEDLINE | ID: mdl-30116161

ABSTRACT

A gentle, rapid method has been developed to introduce a polyacrylic acid (PAA) polymer coating on the surface of gadonanotubes (GNTs) which significantly increases their dispersibility in water without the need of a surfactant. As a result, the polymer, with its many carboxylic acid groups, coats the surface of the GNTs to form a new GNT-polymer hybrid material (PAA-GNT) which can be highly dispersed in water (ca. 20 mg·mL-1) at physiological pH. When dispersed in water, the new PAA-GNT material is a powerful MRI contrast agent with an extremely short water proton spin-lattice relaxation time (T1) which results in a T1-weighted relaxivity of 150 mM-1·s-1 per Gd3+ ion at 1.5 T. Furthermore, the PAA-GNTs have been used to safely label porcine bone-marrow-derived mesenchymal stem cells for magnetic resonance imaging. The labeled cells display excellent image contrast in phantom imaging experiments, and transmission electron microscopy images of the labeled cells reveal the presence of highly dispersed PAA-GNTs within the cytoplasm with 1014 Gd3+ ions per cell.


Subject(s)
Acrylic Resins/chemistry , Cell Tracking/methods , Gadolinium/chemistry , Magnetic Resonance Imaging , Mesenchymal Stem Cells/metabolism , Nanotubes, Carbon/chemistry , Staining and Labeling , Animals , Contrast Media/chemistry , Mesenchymal Stem Cells/cytology , Mesenchymal Stem Cells/ultrastructure , Phantoms, Imaging , Spectrum Analysis, Raman , Sus scrofa , Thermogravimetry
3.
ACS Appl Mater Interfaces ; 9(7): 5709-5716, 2017 Feb 22.
Article in English | MEDLINE | ID: mdl-28072512

ABSTRACT

Carbon nanotubes (CNTs) have been used for a plethora of biomedical applications, including their use as delivery vehicles for drugs, imaging agents, proteins, DNA, and other materials. Here, we describe the synthesis and characterization of a new CNT-based contrast agent (CA) for X-ray computed tomography (CT) imaging. The CA is a hybrid material derived from ultrashort single-walled carbon nanotubes (20-80 nm long, US-tubes) and Bi(III) oxo-salicylate clusters with four Bi(III) ions per cluster (Bi4C). The element bismuth was chosen over iodine, which is the conventional element used for CT CAs in the clinic today due to its high X-ray attenuation capability and its low toxicity, which makes bismuth a more-promising element for new CT CA design. The new CA contains 20% by weight bismuth with no detectable release of bismuth after a 48 h challenge by various biological media at 37 °C, demonstrating the presence of a strong interaction between the two components of the hybrid material. The performance of the new Bi4C@US-tubes solid material as a CT CA has been assessed using a clinical scanner and found to possess an X-ray attenuation ability of >2000 Hounsfield units (HU).

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