NANOPARTICLE PROBES ARE DESTINED FOR MAJOR NEW ROLE IN MEDICINE

Main Menu | News By Date | News By Supplier | News By Category | About Us

NANOPARTICLE PROBES ARE DESTINED FOR MAJOR NEW ROLE IN MEDICINE
13 February 2006 - Emory University

The emerging miniaturized world known as nanomedicine integrates technology, biology and medicine using tools and materials constructed from molecular- and atomic-sized particles too small to seen with a conventional laboratory microscope.

Shuming Nie, PhD, professor of biomedical engineering at Emory University and the Georgia Institute of Technology, and director of cancer nanotechnology at Emory's Winship Cancer Institute, highlighted technological breakthroughs in nanomedicine at the annual meeting of the American Association for the Advancement of Science in Seattle. Dr. Nie's talk on "Bioconjugated Nanoparticles for Personalized Medicine: Molecular Imaging, Profiling and Drug Targeting" was part of a two-day Nanotechnology Seminar at the meeting.

The science of nanotechnology is rapidly moving from its early beginnings in electronics, computers and telecommunications into the expanding field of biomedical nanotechnology. Dr. Nie has been a leader in the nanomedicine field, and has developed semiconductor nanoparticles called quantum dots, which can be bound to particular genes and proteins and used as markers for molecular diagnostics and drug delivery.

"Biomedical nanotechnology is leading to major advances in molecular diagnostics, therapeutics, molecular biology and bioengineering," Dr. Nie says. "Scientists have begun to develop functional nanoparticles that are linked to biological molecules such as peptides, proteins and DNA."

By virtue of their miniature size nanoparticles assume special properties that distinguish them from larger particles, including the ability to emit light in different colors and to act as fluorescent tags. This makes them highly suitable as contrast agents for magnetic resonance imaging, positron emission tomography or as fluorescent tracers in optical microscopy. They also may be useful as structural scaffold in tissue engineering.

Although nanoparticles are similar in size to biomolecules such as proteins and DNA, nanoparticles can be humanly engineered to have specific or multiple functions. In a process called "multiplexing, bioconjugated quantum dots of different sizes can be embedded in tiny polymer beads and finely tuned to tag a multitude of proteins or genetic sequences.

In particular, says Dr. Nie, medical applications for namoparticles will focus on cancer, cardiovascular disease, and neurodegenerative diseases, such as Alzheimers. For example, nanoprobes using quantum dots that are chemically bound to particular genes and proteins can rapidly analyze biopsy tissue from cancer patients to monitor the effectiveness of drug therapy, or utilized as "smart bombs" to deliver controlled amounts of drugs into genetically classified tumor cells.

"Nanomedicine is a priority in the recently released new Roadmap of the NIH," Dr Nie points out. "We expect Emory and Georgia Tech to be institutional leaders in nanomedicine."

http://www.emory.edu

About: Emory University
Emory University is home to nine major academic divisions, numerous centres for advanced study, and a host of prestigious affiliated institutions. In addition to Emory College, the University encompasses a graduate school of arts and sciences; professional schools of medicine, theology, law, nursing, public health, and business; and Oxford College, a two-year undergraduate division on the original campus of Emory in Oxford, Ga.

Emory was founded at Oxford by the Methodist Church in 1836. Led by President James W. Wagner, an award-winning teacher and scholar, the University has 11,300 students and 2,500 faculty members who represent all regions of the United States and more than 100 foreign nations.

Emory University is known for its demanding academics, outstanding undergraduate college of arts and sciences, highly ranked professional schools and state-of-the-art research facilities. For more than a decade Emory has been named one of the country's top 25 national universities by U.S. News & World Report. In addition to its nine schools, the university encompasses The Carter Center, Yerkes National Primate Research Center and Emory Healthcare, a comprehensive metropolitan health care system.

More News:
  • For February 2006
  • From Emory University
  • For University