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Diagnostic Nanoparticle Tools Target Cancer
Nov 2010
ATLANTA, Nov. 3, 2010 — Using two grants from the National Cancer Institute’s Cancer Nanotechnology Platform Partnerships (CNPP) program totaling $4.7 million, researchers are targeting head, neck and pancreatic cancer with diagnostic and therapeutic nanoparticle tools.

The first grant totals more than $2.3 million over five years and is awarded to Dong Moon Shin, MD, professor of hematology, medical oncology and otolaryngology and director of the Winship Cancer Chemoprevention program at Emory University; and Mostafa El-Sayed, PhD, Regents professor of chemistry and biochemistry and director of the Laser Dynamics Laboratory at Georgia Institute of Technology.

Their project, titled “Toxicity and efficacy of gold nanoparticle photothermal therapy in cancer,” is aimed at head and neck cancer, which develops in the soft tissues of the mouth and throat.

“We are excited and grateful for the opportunity to combine our laboratories’ biological and chemical expertise and to develop gold nanoparticle phototherapy into an effective tool against head and neck cancer,” said Shin.

When a laser is tuned to certain wavelengths, gold nanoparticles will absorb the energy and convert it to heat, thanks to a phenomenon known as “surface plasmon resonance.” Directing the nanoparticles to hone in on cancer cells enables the laser to selectively kill them.

Researchers plan to target the molecule EGFR (epidermal growth factor receptor), which is found on almost all head and neck cancers, by binding the gold nanoparticles to antibodies against EGFR. Studies in animals on the toxicity of gold nanoparticles and how fast they move within the body are necessary before application in humans.

The second NCI grant for nearly $2.4 million over five years will be used to develop magnetic iron oxide nanoparticles as tools against pancreatic cancer, one of the most deadly of all cancer types. The principle investigators are Lily Yang, MD, PhD, associate professor of surgery and Hui Mao, PhD, associate professor of radiology and Center for Systems Imaging, both at Emory University School of Medicine.

The project, titled “Theranostic nanoparticles for targeted treatment of pancreatic cancer,” aims to combine the function of MRI visualization with drug delivery capabilities for pancreatic cancer therapy and diagnosis (thera – nostics).

Using magnetic iron oxide nanoparticles developed by Yang and Mao and their teams, researchers plan to improve the delivery of chemotherapeutic agents by directing drug-carrying nanoparticles to the molecule uPAR (urokinase plasminogen activator receptor), which is prevalent in pancreatic cancer cells.

Magnetic iron oxide nanoparticles will be loaded with different types of drug molecules that can be released at the site of the tumor or even inside of the tumor cells.

“These nanoparticles can be tracked by magnetic resonance imaging (MRI) so we will test our ability to monitor drug delivery and treatment responses with imaging technology,” said Yang.

Other institutions receiving CNPP grants are Cedars-Sinai Medical Center; Children’s Hospital of Los Angeles; University of North Carolina; Northeastern University; Northwestern University; Rice University; University of Cincinnati; University of Nebraska Medical Center; University of New Mexico Health Sciences Center; and the University of Utah.

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AmericasBasic ScienceBiophotonicscancerCancer Nanotechnology Platform PartnershipsdiagnosticsDong Moon ShinEmory Universityepidermal growth factor receptorgeorgia intitute of technologygold nanoparticleshead and neck cancerHui Maolaser dynamics laboratoryLily Yangmagnetic iron oxide nanoparticlesMostafa El-SayednanonanoparticlesNational Cancer Institutepancreatic cancerResearch & TechnologyTheranostic nanoparticles for targeted treatment of pancreatic cancertherapeutic nanoparticle toolsToxicity and efficacy of gold nanoparticle photothermal therapy in cancertumor cellsWinship Cancer Chemopreventionlasers

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