Bismuth-carrying nanotubes show promise for CT scans

Sep. 4, 2013 Scientists at Rice University have trapped bismuth in a nanotube cage to tag stem cells for X-ray tracking.

Bismuth is probably best known as the active element in a popular stomach-settling elixir and is also used in cosmetics and medical applications. Rice chemist Lon Wilson and his colleagues are inserting bismuth compounds into single-walled carbon nanotubes to make a more effective contrast agent for computed tomography (CT) scanners.

Details of the work by Wilson's Rice team and collaborators at the University of Houston, St. Luke's Episcopal Hospital, and the Texas Heart Institute appear in the Journal of Materials Chemistry B.

This is not the first time bismuth has been tested for CT scans, and Wilson's lab has been experimenting for years with nanotube-based contrast agents for magnetic resonance imaging (MRI) scanners. But this is the first time anyone has combined bismuth with nanotubes to image individual cells, he said.

"At some point, we realized no one has ever tracked stem cells, or any other cells that we can find, by CT," Wilson said. "CT is much faster, cheaper and more convenient, and the instrumentation is much more widespread (than MRI). So we thought if we put bismuth inside the nanotubes and the nanotubes inside stem cells, we might be able to track them in vivo in real time."

Experiments to date confirm their theory. In tests using pig bone marrow-derived mesenchymal stem cells, Wilson and lead author Eladio Rivera, a former postdoctoral researcher at Rice, found that the bismuth-filled nanotubes, which they call Bi@US-tubes, produce CT images far brighter than those from common iodine-based contrast agents.

"Bismuth has been thought of before as a CT contrast agent, but putting it in nanotube capsules allows us to get them inside cells in high concentrations," Wilson said. "That lets us take an X-ray image of the cell."

The capsules are made from a chemical process that cuts and purifies the nanotubes. When the tubes and bismuth chloride are mixed in a solution, they combine over time to form Bi@US-tubes.

The nanotube capsules are between 20 and 80 nanometers long and about 1.4 nanometers in diameter. "They're small enough to diffuse into the cell, where they then aggregate into a clump about 300 nanometers in diameter," he said. "We think the surfactant used to suspend them in biological media is stripped off when they pass through the cell membrane. The nanotubes are lipophilic, so when they find each other in the cell they stick together."

Wilson said his team's studies showed stem cells readily absorb Bi@US-tubes without affecting their function. "The cells adjust over time to the incorporation of these chunks of carbon and then they go about their business," he said.

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Bismuth-carrying nanotubes show promise for CT scans