Ultra-miniature bialy-shaped particles - called nanobialys because they resemble tiny versions of the flat, onion-topped rolls popular in New York City - could soon be carrying medicinal compounds through patients' bloodstreams to tumors or atherosclerotic plaques.
The nanobialys are an important addition to the stock of diagnostic and disease-fighting nanoparticles developed by researchers in the Consortium for Translational Research in Advanced Imaging and Nanomedicine (C-TRAIN) at Washington University School of Medicine in St. Louis. C-TRAIN's "smart" nanoparticles can deliver drugs and imaging agents directly to the site of tumors and plaques.
The nanobialys weren't cooked up for their appealing shape - that's a natural result of the manufacturing process. The particles answered a need for an alternative to the research group's gadolinium-containing nanoparticles, which were created for their high visibility in magnetic resonance imaging (MRI) scans.
Gadolinium is a common contrast agent for MRI scans, but recent studies have shown that it can be harmful to some patients with severe kidney disease.
"The nanobialys contain manganese instead of gadolinium," says first author Dipanjan Pan, Ph.D., research instructor in medicine in the Cardiovascular Division. "Manganese is an element found naturally in the body. In addition, the manganese in the nanobialys is tied up so it stays with the particles, making them very safe."
The bulk of a nanobialy is a synthetic polymer that can accept a variety of medical, imaging or targeting components. In the July 2008 issue of the Journal of the American Chemical Society the researchers report that targeted manganese-carrying nanobialys readily attached themselves to fibrin molecules, which are found in atherosclerotic plaques and blood clots. Laboratory-made clots then glowed brightly in MRI scans. They also showed that the nanobialys could carry both water-soluble and insoluble drugs.
Pan, who is a research instructor in medicine, played a leading role in the creation of nanobialys and chose the particles' name. "When we looked at the particles with an electron microscope, we saw they are round and flat, with a dimple in the center, like red blood cells, but also a little irregular, like bagels," he says. "I came across the word bialy, which is a Polish roll like a bagel without a hole that can be made with different toppings. So I called the particles nanobialys."
Pan is one of a group of researchers headed by Gregory M. Lanza, M.D., Ph.D., and Samuel A. Wickline, M.D. Lanza is an associate professor of medicine and biomedical engineering. Wickline is a professor of medicine, physics, biomedical engineering and cell biology and physiology. Lanza and Wickline are Washington University cardiologists at Barnes-Jewish Hospital.
Nanoparticles can be a more effective way to administer medications and imaging contrast agents because they are targeted, packaged units - drugs and imaging agents stay on the nanoparticles, which can be made to concentrate at a specific site in the body.