Stabilized Nanosponge Particles Sequester and Neutralize Toxins in the Bloodstream

The red blood cell membrane coating rendered the nanoparticles invisible to immune system response.

In the current study nanosponges were used to sequester and neutralize toxins circulating in the bloodstream of a mouse model. Results published in the April 14, 2013, online edition of the journal Nature Nanotechnology revealed that preinoculation with nanosponges enabled survival of 89% of mice challenged with a lethal dose of MRSA alpha-hemolysin toxin. Treatment with nanosponges after administration of the lethal dose of toxin resulted in 44% survival. Administering nanosponges and alpha-hemolysin toxin simultaneously at a toxin-to-nanosponge ratio of 70:1 neutralized the toxin and caused no discernible harm to the animals.

In these experiments, the nanosponges were found to have a half-life of 40 hours in the blood circulation of the mice. Eventually the animals' livers metabolized both the nanosponges and the sequestered toxins, with the liver suffering no apparent damage.

"This is a new way to remove toxins from the bloodstream," said senior author Dr. Liangfang Zhang, professor of nanoengineering at UCSD. "Instead of creating specific treatments for individual toxins, we are developing a platform that can neutralize toxins caused by a wide range of pathogens, including MRSA and other antibiotic resistant bacteria."

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University of California, San Diego