Tag Archives: chemistry

New way to use electric fields to deliver cancer treatment

Called iontophoresis, the technique delivers high concentrations of chemotherapy to select areas, reducing the risk of damaging healthy tissue, according to a study this week in Science Translational Medicine. “A big challenge with many drugs is getting them where they need to go,” said Lissett Bickford, an assistant professor in the Department of Biomedical Engineering and Mechanics and the Department of Mechanical Engineering, “This technology basically forces drugs directly to and through the tumor, allowing all cancer cells in the treatment zone to get that exposure.” Bickford, who now directs the Medical Devices and Drug Delivery Lab at the Institute for Critical Technology and Applied Science at Virginia Tech, participated in the study during her postdoctoral fellowship at the University of North Carolina at Chapel Hill, where she worked with lead author Joseph DeSimone, the Chancellor’s Eminent Professor of Chemistry. Chemotherapy kills cancer cells, but it’s toxic to healthy cells, too. When it’s injected into the bloodstream, only a small amount of the drug actually gets to the tumor. …

New class of synthetic molecules mimics antibodies — ScienceDaily

The new molecules — synthetic antibody mimics (SyAMs) — attach themselves simultaneously to disease cells and disease-fighting cells. The result is a highly targeted immune response, similar to the action of natural human antibodies. “Unlike antibodies, however, our molecules are synthetic organic compounds that are approximately one-twentieth the size of antibodies,” said David A. Spiegel, a professor of chemistry at Yale whose lab developed the molecules…

Zinc test could help diagnose breast cancer early — ScienceDaily

In a world-first the researchers were able to show that changes in the isotopic composition of zinc, which can be detected in a person’s breast tissue, could make it possible to identify a ‘biomarker’ (a measurable indicator) of early breast cancer. A report of the research by the Oxford University-led team, which included researchers from Imperial College London and the Natural History Museum, London, is published in the Royal Society of Chemistry journal Metallomics. The pilot study analysed zinc in the blood and blood serum of ten subjects (five breast cancer patients and five healthy controls) alongside a range of breast tissue samples from breast cancer patients. By using techniques that are over 100 times more sensitive to changes in the isotopic composition of metals than anything currently used by clinicians, the researchers were able to show that they could detect key differences in zinc caused when cancer subtly alters the way that cells process the metal…

Zinc test could help diagnose breast cancer early

In a world-first the researchers were able to show that changes in the isotopic composition of zinc, which can be detected in a person’s breast tissue, could make it possible to identify a ‘biomarker’ (a measurable indicator) of early breast cancer. A report of the research by the Oxford University-led team, which included researchers from Imperial College London and the Natural History Museum, London, is published in the Royal Society of Chemistry journal Metallomics. The pilot study analysed zinc in the blood and blood serum of ten subjects (five breast cancer patients and five healthy controls) alongside a range of breast tissue samples from breast cancer patients…

Metal test could help diagnose breast cancer early — ScienceDaily

In a world-first the researchers were able to show that changes in the isotopic composition of zinc, which can be detected in a person’s breast tissue, could make it possible to identify a ‘biomarker’ (a measurable indicator) of early breast cancer. A report of the research by the Oxford University-led team, which included researchers from Imperial College London and the Natural History Museum, London, is published in the Royal Society of Chemistry journal Metallomics. …

‘Treasure in saliva’ may reveal deadly diseases early enough to treat them

The study, the most comprehensive analysis ever conducted of RNA molecules in human saliva, reveals that saliva contains many of the same disease-revealing molecules that are contained in blood. It was published online today by the peer-reviewed journal Clinical Chemistry and will be published in the journal’s January 2015 special print issue, “Molecular Diagnostics: A Revolution in Progress.” “If we can define the boundaries of molecular targets in saliva, then we can ask what the constituents in saliva are that can mark someone who has pre-diabetes or the early stages of oral cancer or pancreatic cancer — and we can utilize this knowledge for personalized medicine,” said Dr…

Modeling tumor dormancy: What makes a tumor switch from dormant to malignant?

A new computational model developed in the laboratory of Salvatore Torquato, a Professor of Chemistry at Princeton University, may help illuminate the conditions surrounding tumor dormancy and the switch to a malignant state. Published today in PLOS ONE, the so-called cellular automaton model simulated various scenarios of tumor growth leading to tumor suppression, dormancy or proliferation. “The power of the model is that it lets people to test medically realistic scenarios,” Torquato said. In future collaborations, these scenarios could be engineered in laboratory experiments and the observed outcomes could be used to calibrate the model. …

Optimal particle size for anticancer nanomedicines discovered

“To develop next generation nanomedicines with superior anti-cancer attributes, we must understand the correlation between their physicochemical properties — specifically, particle size — and their interactions with biological systems,” explains Jianjun Cheng, an associate professor of materials science and engineering at the University of Illinois at Urbana-Champaign. In a recent study, published in the Proceedings of the National Academy of Sciences, Cheng and his collaborators systematically evaluated the size-dependent biological profiles of three monodisperse drug-silica nanoconjugates at 20, 50 and 200 nm…