30
Apr

Miniscule closed containers for precise delivery of nano-quantities of drugs

Author: admin

 

Medical Science News

Researchers at the USC Information Sciences Institute have demonstrated a way to manufacture miniscule closed containers that might be used to deliver precise micro- or even nano-quantities of drugs.

According to ISI project leader Peter Will, who is also a research professor in the Viterbi School of Engineering, the new technique, described in a paper in the Journal of Micromechanics and Microengineering, is a two-step process.

Part alt=”Researchers at the USC Information Sciences Institute have demonstrated a way to manufacture miniscule closed containers that might be used to deliver precise micro- or even nano-quantities of drugs.” “border=”0″ align=”left” vspace=”0″ hspace=”0″ >Flat forms fabricated in polisilicon, ready for additional processing and subsequent folding. Credit: USC Information Sciences Institute

“Our experiments show” says the paper, that “the combination of partial folding of structures by magnetic actuation and liquid closure to bring the structures to their final closed state is an extremely promising technique for mass production of large arrays of micrometer size ?voxels. Furthermore, we believe that future optimization of the voxel hinge geometry and composition should allow for extensions of our work to” much smaller voxels.

The Voxel team - consisting of Will, professor of chemistry Bruce Koel (who has since gone to Lehigh University), former post-doctoral researcher Alejandro Bugacov and former grad student (now graduate) Rob Gagler folded a number of different shapes, including four- and five-sided pyramids, pentagonal ‘lotus’ shapes, and also simple square plates that folded over each other to make flat mini-envelopes.

Will has been pursuing the idea of creating voxels for many years, “way back to my days in HP labs, when I was working in Medical and Chemical applications.” The USC team designed the chips using MEMSPRO CAD software; the actual chip fabrication was done in France.

“The experimental work was done on campus,” said Will, “since ISI doesn’t have a wet lab.”

The National Science Foundation supported the research, under an exploratory research grant. The paper is “Voxels: volume-enclosing microstructures,” J. Micromech. Microeng. 18 (2008) 055025.

http://www.usc.edu/

This entry was posted on Wednesday, April 30th, 2008 at 4:22 pm and is filed under Medical Science News. You can follow any responses to this entry through the RSS 2.0 feed. You can leave a response, or TrackBack URI from your own site.

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