Dental medicine is on the brink of profound change due, in large measure, to unprecedented advances in science and technology. Advances in stem cell biology will improve our understanding of degenerative diseases and assist in developing therapies for replacing damaged or diseased parts/tissues.
During the 83rd General Session of the International Association for Dental Research, convening today at the Baltimore Convention Center, several research groups are reporting on dramatic progress in the use of various techniques--including genetic mutations, post-natal dental stem cells, and tooth tissue engineering--to facilitate replacement tooth therapy development in humans.
Researchers from the Forsyth Institute (Boston, MA) and the University of Texas Health Science Center at San Antonio will describe successful experiments in bioengineering mineralized tissues, including periodontal tissues and replacement tooth phenotypes. This research is supported by the National Institute of Dental and Craniofacial Research, one of the National Institutes of Health (Bethesda, MD).
Linda T. Hemphill | EurekAlert!
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Whispering gallery mode (WGM) resonators are used to make tiny micro-lasers, sensors, switches, routers and other devices. These tiny structures rely on a...
Using ultrafast flashes of laser and x-ray radiation, scientists at the Max Planck Institute of Quantum Optics (Garching, Germany) took snapshots of the briefest electron motion inside a solid material to date. The electron motion lasted only 750 billionths of the billionth of a second before it fainted, setting a new record of human capability to capture ultrafast processes inside solids!
When x-rays shine onto solid materials or large molecules, an electron is pushed away from its original place near the nucleus of the atom, leaving a hole...
For the first time, physicists have successfully imaged spiral magnetic ordering in a multiferroic material. These materials are considered highly promising candidates for future data storage media. The researchers were able to prove their findings using unique quantum sensors that were developed at Basel University and that can analyze electromagnetic fields on the nanometer scale. The results – obtained by scientists from the University of Basel’s Department of Physics, the Swiss Nanoscience Institute, the University of Montpellier and several laboratories from University Paris-Saclay – were recently published in the journal Nature.
Multiferroics are materials that simultaneously react to electric and magnetic fields. These two properties are rarely found together, and their combined...
MBM ScienceBridge GmbH successfully negotiated a license agreement between University Medical Center Göttingen (UMG) and the biotech company Tissue Systems Holding GmbH about commercial use of a multi-well tissue plate for automated and reliable tissue engineering & drug testing.
MBM ScienceBridge GmbH successfully negotiated a license agreement between University Medical Center Göttingen (UMG) and the biotech company Tissue Systems...
Pathogenic bacteria are becoming resistant to common antibiotics to an ever increasing degree. One of the most difficult germs is Pseudomonas aeruginosa, a...
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