Sentences with phrase «radiation technology for»
A radiologist is a medical professional who uses radiation technology for the purpose of diagnosing and treating illness of patients.
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Rhode Island Hospital becomes the first in New England to offer the newest image - guided radiation technology for cancer treatment, the Trilogy stereotactic system.
Combining biology and medicine with engineering, the discipline solves health - related problems by developing electrocardiograms and pacemakers for heart disease, for instance, and radiation technology for treating cancer.
Not exact matches
Some observers quietly worry that, under Trump, a new focus on climate engineering could become part of a justification for delaying government action to curb carbon emissions, with the reasoning that geoengineering technologies could later be used to remove carbon from the atmosphere, or prevent the warming effects of solar radiation.
Understanding the nature of radiation damage in materials is of paramount importance for controlling the safety of nuclear reactors, using ion implantation in semiconductor technology, and designing reliable devices in space.
On its fifth flight, for instance, Rocket Lab is scheduled to carry 10 NASA - funded CubeSats that will include experiments to monitor space weather and Earth's radiation belts, and conduct technology demonstrations for solar sails and on - orbit repairs.
The imaging software — developed and currently in use only at Cincinnati Children's — mathematically determines the lowest possible radiation dose for the patient before a scan is performed, according to the study led by David Larson, MD, radiology quality and safety director at the medical center and principal architect of the technology.
«It is likely that very few Americans will be killed directly, suffer radiation sickness, or even have a measurably increased risk for cancer from an attack,» Peter D. Zimmerman and Cheryl Loeb write in «Dirty Bombs: The Threat Revisited,» a report published by the Center for Technology and National Security Policy, National Defense University.
Louis Lanzerotti of the New Jersey Institute of Technology is principal investigator for the RBSPICE (Radiation Belt Ion Composition Experiment) instrument, and one of the pioneers of radiation belt physics research.
Michael O'Connor, Ph.D., a Mayo Clinic scientist and inventor of the MBI technology, calls this latest study a major milestone for both safety and efficacy of the imaging device, largely because of the high detection rates achieved through low radiation exposure.
Gottesman and colleague John Preskill of the California Institute of Technology in Pasadena, US, found that previous calculations by other researchers using this model allowed information to escape for only certain interactions between the infalling matter and the infalling Hawking radiation.
The discovery made at Vienna University of Technology now opens up the possibility of integrating a light detector for terahertz radiation into a chip.
This kind of radiation has important technological applications, for instance for next - generation computer technology, but it is difficult to work with these kind of waves.
It is not only in hypothetical new computers that it's important to be able to control beams of radiation precisely with the newly developed light turning mechanism: terahertz radiation is used today for many purposes, for example for imaging methods in airport security technology.
Dwight Duston, director of science and technology at the Pentagon's Star Wars office, says the free - electron laser, once trumpeted as a weapon for destroying incoming enemy missiles, could be used to produce a beam of high - quality X-rays that would reduce a woman's exposure to radiation during mammography.
The CALLISTO (Compound Astronomical Low - cost Low - frequency Instrument for Spectroscopy in Transportable Observatory) spectrometers, designed and built by electronics engineer Christian Monstein of the Institute for Astronomy of the Swiss Federal Institute of Technology Zurich (ETH Zurich), record the intensity of electromagnetic radiation at radio frequencies, between 45 and 870 megahertz.
President of ESTRO, Professor Vincenzo Valentini, a radiation oncologist at the Policlinico Universitario A. Gemelli, Rome, Italy, said: «This study not only shows a better outcome for the women treated with IMRT, but has an additional value in defining the selection criteria for providing treatment to those patients who will benefit from new frontline technologies.
Professor Masanobu Izaki and colleagues at Toyohashi University of Technology, in collaboration with researchers at the Research Center for Photovoltaic Technologies, National Institute of Advanced Industrial Science and Technology, have analyzed the structure of a zinc - based buffer layer in a CIGS solar cell at SPring8 (the world's largest third - generation synchrotron radiation facility, located in Hyogo Prefecture, Japan).
• MRI imaging technology is to be used in specific situations, including for patients who have metastatic tumors, for detecting head and neck paragangliomas and for patients in whom radiation exposure should be limited; and
Having developed the detector technology, the pair are now focused on building prototype detectors for the various types of radiation relevant to particular disciplines, including X-rays and beta particles.
A Detector on a Chip The discovery made at Vienna University of Technology now opens up the possibility of integrating a light detector for terahertz radiation into a chip.
«This technology [stereotactic body radiation] has been used successfully in both primary and metastatic lung and liver cancers, notably for patients who could not otherwise undergo surgery, with local control rates in excess of 90 percent» says Gan.
Sophisticated radiation therapy technologies for treating brain and spinal tumors, aneurysms, and blood vessel abnormalities while causing minimal damage to healthy tissues.
The group in which he works is involved in the instrumental development for the LISA PathFinder mission (ESA), a technology precursor mission for a future space - based gravitational - wave observatory, LISA, which will detect the gravitational radiation from low frequency sources like massive black hole mergers, inspiraling stellar compact objects into massive black holes, and galactic binaries.
The idea for a spinoff medical technology company originated several years ago when Medlin and his adviser, Endre Takacs, were working in Clemson's Atomic and Medical Physics lab on an experiment with bioengineers to systematically study the effects of low - dose radiation on living cell cultures.
Using this advanced technology enables a range of radiation therapy treatments for cancer, so our expert doctors can choose the best treatment for each patient.
«When we think about radiation therapy, it is high technology, but the complexity of cancer requires that we have a better understanding of the biology,» says Marikki Laiho, the Willard and Lillian Hackerman Professor of Radiation Oncology and Vice Chair of Research for the Department of Radiation Oncology and Molecular Radiation Sciences.
The main research activity (located in central Paris and vicinity at Orsay) regroups to date 16 technology platforms and services offering state ‐ of ‐ the - art expertise and equipment from small molecule chemistry to omcs, super-resolution microscopy, sophisticated radiation sources and various animal models, including xenografts directly derived from patients, in order to promote the best environment and support for research activities.
StemRad, a developer of revolutionary technology that shields first responders, astronauts and soldiers from harmful radiation exposure, announced today that NASA and the Israel Space Agency have signed an agreement for the launch of StemRad's AstroRad radiation protection vest aboard NASA's EM - 1 mission around the moon, the last test flight before the space agency begins deep space manned missions.
While the general technique — eliminating tumors with focused energy — is not new, radiation oncologists, medical physicists, and scientists are combining a number of modern technologies for producing significant breakthroughs in radiation therapy.
With wireless technology usage at an historic all - time high, consumers» needs for intelligent solutions to protect themselves from the effects of radiation exposure is greater than ever.
New radiation technologies and techniques have revolutionized treatment of brain cancers (including pituitary tumors that cause feline acromegaly), allowing for a non-invasive approach to treatment that has few, if any, short term side effects.
This team is equipped with the most advanced diagnostic and treatment technologies available to dogs and cats including CT scanner, MRI, and linear accelerator for traditional and stereotactic radiation therapy.
New radiation technologies and techniques have revolutionized treatment of heart base tumors, allowing for a non-invasive approach to treatment, that has few (if any) short term side effects (such as a transient cough).
The technology is safe and does not use ionizing radiation as for x-rays, but instead uses the conversion of high frequency sound waves to make images of the patient.
The good news is that treatment and cure of animal cancers is proceeding apace: early detection through imaging technology and a range of treatments including radiation therapy, chemotherapy, improved surgical techniques, gene therapy, radioactive beads, and a special diet for the cancer patient are all in the news.
By the way, my arguments assume that tokamak physics and technology works well and is reasonably simple, meaning that not many more components will have to be added to the system to allow it to operate on a steady basis for very long periods of time between the long shutdowns needed to change out radiation - damaged, radioactive materials.
The Forum for Climate Engineering Assessment's Academic Working Group (AWG) on International Governance of Climate Engineering is an international group of senior academics that have been assembled to formulate perspectives on the international governance of climate engineering research and potential deployment, with a focus on proposed solar radiation management / albedo modification technologies.
The two of us were among a group of international experts asked to propose and critique a number of policy options, such as avoiding methane emissions, improving forestry practices, increased spending for energy technology innovation and researching solar radiation management, a form of geoengineering.
ETH Zurich has expertise in developing and refining technologies geared towards the production of solar fuels and has unique experimental research facilities for controlled experimentation under high - flux solar radiation.
Their reasons for objecting to the technology range from health concerns about the radiation and electromagnetic signals emitted from the devices, which they fear could cause cancer, migraines or other illnesses, to security and privacy fears.
Under the Trump administration, enthusiasm appears to be growing for the controversial technology of solar geo - engineering, which aims to spray sulphate particles into the atmosphere to reflect the sun's radiation back to space and decrease the temperature of Earth.
Solar radiation can be converted directly to usable energy through a variety of technologies, and that energy can be used for small - scale applications such as powering hand - held calculators, powering solar vehicles, or heating water for residential applications.
LG has filed regulatory documents with the FCC's Office of Engineering and Technology showing off the cellular capabilities and radiation impacts on humans of a new device supposedly set for sales in the US.