The research involved walking a thoroughbred between three dimensional radiographs,
an imaging technique developed by Professor Stephen Gatesy and colleagues at Brown University and used previously to view bone interaction in small animals such as fish and birds.
One infrared scan can give pathologists a window into the structures and molecules inside tissues and cells, enabling fast and broad diagnostic assessments, thanks to
an imaging technique developed by University of Illinois researchers and clinical partners.
They proposed a new way to study a cuprate, one that no other group had tried: a powerful
imaging technique developed by Davis, called sublattice imaging - which is performed using a specialized scanning tunneling microscope (STM) capable of determining the electronic structure in different subsets of the atoms in the crystal, the so - called sublattices.
HIDDEN CONSCIOUSNESS Adrian M. Owen's article on
imaging techniques developed to determine when seemingly vegetative patients are actually conscious [«Is Anybody in There?»]
The imaging techniques developed by Northwestern and the National Gallery have allowed Kenneth Brummel, the AGO's assistant curator of modern art, to better understand Picasso's style, influences and process.
Not exact matches
Giovanni Verri, a researcher at the British Museum,
developed an
imaging technique sensitive to traces of an ancient pigment, Egyptian blue.
The
developed UEM variant
techniques are several, and here we illucidate convergent - beam and near - field
imaging, as well as tomography and scanning - pulse microscopy.
«Only about five percent of the first degree family members of a person with diabetes will
develop occult disease,» Gaglia, who is firm that for the moment this
imaging technique should only be used in the context of research.
The method they have
developed uses an electromagnetic
imaging technique called magnetotellurics to estimate the electrical conductivity beneath Earth's surface.
MD / PhD psychiatrists and neurologists have opportunities not only to apply these
techniques to studies of their patients, but also to
develop improved
imaging methodologies.
Then, Lorin Milescu's students used live -
imaging techniques and software
developed in their lab to demonstrate that the Gr28bD protein can, through temperature differences, modulate the brain activity of fruit flies.
Farmer's experience with Exxon, which involved a variety of
imaging and remote sensing
techniques to locate geological structures favorable for the accumulation of petroleum, also served him well in working with NASA mission planners and technologists
developing the instruments to be carried into Mars orbit by the next generation spacecraft.
NSF provides state - of - the - art
imaging tools to academic labs; supports efforts to
develop new microscopy
techniques; and funds training for young scientists and engineers in the field.
But researchers have
developed an
imaging technique that shows, in real time, what happens when things start going awry — a tool that could help doctors diagnose mitochondrial injuries before they have the chance to do serious cellular damage.
He became interested in applying his background in
imaging techniques and X-ray crystallography to
develop a therapeutic solution that relied on nanotechnology — a real - time biosensor that could continuously and non-invasively monitor someone's blood serotonin, and help them fight off blood clots even before they form.
A team of biomedical engineers at Vanderbilt University headed by Assistant Professor Melissa Skala has
developed the
technique, which uses fluorescence
imaging to monitor the response of three - dimensional chunks of tumors removed from patients and exposed to different anti-cancer drugs.
As described in a paper just published in the Nature partner journal npj Quantum Materials, the team
developed an «ultrafast electron diffraction» system — a new laser - driven
imaging technique and the first of its kind in the world — to capture the subtle atomic - scale lattice distortions.
Davidson and Kalin use magnetic resonance
imaging (mri), positron emission tomography (pet), and electrical sensing
techniques to scour pockets of the brain where emotions dwell, then
develop detailed schematics of the neural circuitry among them.
Now MIT researchers have
developed an
imaging technique that, for the first time, enables three - dimensional mapping of serotonin as it's reabsorbed into neurons, across multiple regions of the living brain.
Several years ago, researchers from the University of Twente joined forces with a number of companies to
develop a prototype for a machine that would combine ultrasound and photoacoustics medical
imaging techniques.
In this role, she works with many collaborators to facilitate implementing superresolution microscopy into their research programs as well as
developing novel
techniques for microbial live cell
imaging.
The breakthrough came with a new
imaging technique, dual - resonance - frequency - enhanced electrostatic force microscopy (DREEM), which was
developed by University of North Carolina at Chapel Hill chemist and co-author Dorothy Erie, former UNC and NC State postdoctoral researchers Dong Wu and Parminder Kaur, and was featured earlier this year in Molecular Cell.
A team led by Professor Theo Lasser, the head of the Laboratory of Biomedical Optics (LOB) at EPFL has now made strides to address the issue by
developing a
technique that can perform both 3D super-resolution microscopy and fast 3D phase
imaging in a single instrument.
Researchers have
developed a fast and practical molecular - scale
imaging technique that could let scientists view never - before - seen dynamics of biological processes involved in neurodegenerative diseases such as Alzheimer's disease and multiple sclerosis.
Similarly, while it's possible to study explosives, sans explosives, new
techniques involving high - speed, high - fidelity
imaging with optical filtering and signal processing
techniques have recently made setting off explosives and capturing the data in real - time a reasonable alternative to
developing a new simulation.
These
imaging techniques are behind the high - satisfaction foods Morris is helping to
develop at the Institute of Food Research (IFR) in Norwich, UK, which promise to help fight obesity by making people feel full before...
Using a variety of
techniques, including Synchrotron Rapid Scanning X-ray Fluorescence — a chemical
imaging method
developed at Stanford University that permits the detection of low levels of elements across large surfaces — the team was able to visualize the remains of pigments in several fossil birds, including the 150 - million - year - old Archaeopteryx and the 125 - million - year - old Confuciusornis.
In an important step toward endoscopic diagnosis of cancer, researchers have
developed a handheld fiber optic probe that can be used to perform multiple nonlinear
imaging techniques without the need for tissue staining.
Nectow and his colleagues zeroed in on the dorsal raphe nucleus, or DRN, when whole - brain
imaging made with iDISCO, an advanced
technique developed at Rockefeller, revealed that this part of the brain becomes activated in hungry mice.
Inspired by rats and seals, scientists have
developed a robotic «whisker» that detects air currents and builds two - dimensional images of what it senses using tomography, an
imaging technique commonly implemented in MRI or CT scans.
For several years, Pinton has been trying to
develop better ultrasound
imaging techniques for tracking shear waves in living tissue.
Researchers at the ARC Centre of Excellence for Nanoscale BioPhotonics (CNBP), led by the University of Adelaide, have successfully
developed an advanced new
imaging technique, which can help assess the quality of early - stage embryos.
The LOCI lab specializes in
developing new
imaging techniques for living things, with a special interest in studying cells in their microenvironment rather than in isolation.
Researchers from the University of Missouri School of Medicine have
developed an
imaging technique using a specific form of helium to measure the drug's effectiveness.
For years researchers have been
developing molecular
imaging techniques that visualize hormonally active breast cancer cells — specifically those testing positive for human epidermal growth factor receptor 2 (HER2).
Sutton and his team further
developed and implemented the
technique to make high - speed speech
imaging possible.
The research used advanced MRI
imaging, but Sripada and his colleagues hope to
develop ways to track network maturity using less - expensive
techniques such as electroencephalography, or EEG.
The laboratory is working in collaboration with Dr. Paula Foster to
develop real - time cellular magnetic resonance
imaging techniques as a means to track dendritic cell migration in vivo in humans.
In addition to pioneering these
techniques, Raichle has also been instrumental in
developing computer programs to make the most of PET
imaging and be able to study regions of the brain to an accuracy of one millimetre.
At the Kavli Institute for Brain Science at Columbia University Medical Center, researchers are
developing novel
imaging techniques to study this communication among brain cells.
With the idea of
developing strong science cases for a future visible interferometer, we organized a science group around the following topics: pre-main sequence and main sequence stars, fundamental parameters, asteroseismology and classical pulsating stars, evolved stars, massive stars, active galactic nuclei (AGNs) and
imaging techniques.
Our scientists used advanced
imaging techniques to see how the atoms are aligned and then manipulated the nanostructure to
develop the new alloy.
«Because of the Earth's ionosphere, such a low frequency has proven very difficult for high - quality
imaging, and it is only in the past few years that we have
developed the
techniques that make a project like the VLSS possible,» said Rick Perley, of the National Radio Astronomy Observatory (NRAO) in Socorro, NM.
To accomplish this goal, we are
developing new optical systems and
imaging techniques to see these cells and track them over time in the living eye.
She
develops techniques and methodologies based on optical
imaging, bio-sensing and single - molecule manipulation with the aim to monitor the behavior of individual biological molecules and compelxes in vitro and in live cells.
Currently, she is using
imaging techniques to explore the effects of glucose on brain responses to food cues in children who are at - risk for
developing obesity and / or diabetes later in life.
I will be able to test those common markers in glaucoma, and this study will be a starting point for translating novel
imaging techniques, initially
developed for cancer detection, to the early detection of glaucoma.
We will
developed a novel
imaging techniques called multi-functional optical coherence tomography (mf - OCT) that is capable of quantifying nanoscale structures of neural fiber layers and ganglion cells, and the oxygen consumption of the retina, to detect the two early manifestations of glaucoma.
Our laboratory focuses on
developing novel retinal
imaging techniques that allows us to see beyond the anatomical structures.
The goal of our study is to
develop a novel
imaging technique to quantitatively detect earliest onset of glaucoma for use as a potential screening method.