Optical Coherence Tomography (OCT) is a high - resolution
live imaging technique that can be used for early detection of retinal diseases, such as age - related macular degeneration, diabetes - related conditions, glaucoma or vascular occlusions, for example.
My lab combines a novel ex-vivo
live imaging technique, tissue mechanics, and mammalian genetics to understand how the skull grows.
Not exact matches
A new 3 - D
imaging technique enables viewers to track the
life of
living cells — how they grow and move around — without disturbing them.
Other
techniques advancing in the
live -
imaging space include multiphoton microscopy and label - free processes such as Raman microscopy and third harmonic generation
imaging.
The latest in
live - cell microscopy — multiphoton
imaging, light - sheet
techniques, and technology borrowed from Raman spectroscopy — allow researchers to study
living cells in more detail with less effort.
Whereas analyses of the brain were once limited to autopsy samples at the time of a person's death, advances in an
imaging technique known as positron emission tomography (PET) now enable researchers to detect amyloid and tau in the brains of
living people.
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.
The protein's role in the pathway leading to memory impairment, however, remained unclear until scientists from IMCB utilised
live - cell
imaging techniques to elucidate the mechanism of memory impairment and illustrated how SNX27 attributes to synaptic dysfunction.
Using data from brain
imaging techniques that enable visualising the brain's activity, a neuroscientist at the University of Geneva (UNIGE) and a Parisian ENT surgeon have managed to decipher brain reorganisation processes at work when people start to lose their hearing, and thus predict the success or failure of a cochlear implant among people who have become profoundly deaf in their adult
life.
Mankoff and his colleagues argue that making a strong clinical case for these new
imaging techniques will mean demonstrating their ability to improve traditional treatment outcomes such as progression - free survival and quality of
life.
VTT Technical Research Centre of Finland has analysed the effectiveness of its beauty patch, using a
technique for
imaging live tissue to demonstrate the patch's beneficial effects on the skin.
Although the
technique may find uses in many diverse fields, two of the most exciting possibilities are localized optical spectroscopy of semiconductors and the fluorescence
imaging of
living cells.
To determine the most common type of age - related segregation errors, the researchers first used a novel high resolution
imaging technique to visualize chromosomes in
live mouse egg cells throughout the whole first stage of meiosis.
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.
Using a powerful
imaging technique that allowed the scientists to track the presence and movement of parasites in
living tissues, the researchers found that Toxoplasma infects the brain's endothelial cells, which line blood vessels, reproduces inside of them, and then moves on to invade the central nervous system.
«
Imaging technique maps serotonin activity in
living brains:
Imaging technique that creates 3 - D video of serotonin transport could aid antidepressant development.»
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.
learn from our speakers the benefits of
imaging live cells using
techniques such as high resolution microscopy, superresolution microscopy, and high - content analysis
The fluorescence label on the probe also allows it to be detected via high - resolution
imaging techniques in tissues and organs at depths of up to one millimeter, which enables researchers to effectively monitor the in vivo enzymatic activities of MAO - B in
living systems.
Using a
technique that creates high - resolution, three - dimensional images, Guerinot and her colleague Tracy Punshon, an expert at
imaging metals moving through
living systems, found arsenic concentrated in the grain's nutrient - rich outer layers, which are polished off in the processing of white rice but remain in brown rice.
Other advances that gave the researchers a clearer view of the signaling mechanisms reported in Science include CRISPR gene editing,
live - cell
imaging techniques, and more powerful ways to look at all components of a protein complex.
By making the switch, all molecules made from fatty acids can be observed inside
living cells by an advanced
imaging technique called stimulated Raman scattering (SRS) microscopy.
They employed an advanced microscopic
technique called in vivo two - photon
imaging that allows the analysis of structures as small as a thousandth of a millimetre in the
living brain.
«
Imaging techniques set new standard for super-resolution in
live cells.»
Using a special
imaging technique, Northwestern Medicine scientists have discovered the toxic build - up of amyloid protein is greater on the left side of the brain — the site of language processing — than on the right side in many individuals
living with PPA.
Nagoya, Japan — Dr. Daisuke Maruyama and Professor Tetsuya Higashiyama at the Institute of Transformative Bio-Molecules (WPI - ITbM) of Nagoya University and the JST - ERATO Higashiyama
Live - Holonics Project along with their international team have shown by live - cell imaging techniques that flowering plants, such as Arabidopsis thaliana undergo a cell to cell fusion to prevent the attraction of the second pollen tube after fertilization has occur
Live - Holonics Project along with their international team have shown by
live - cell imaging techniques that flowering plants, such as Arabidopsis thaliana undergo a cell to cell fusion to prevent the attraction of the second pollen tube after fertilization has occur
live - cell
imaging techniques that flowering plants, such as Arabidopsis thaliana undergo a cell to cell fusion to prevent the attraction of the second pollen tube after fertilization has occurred.
Scientists have pioneered the use of a high - powered
imaging technique to picture in exquisite detail one of the central proteins of
life — a cellular recycling unit with a role in many diseases.
George and Bohning are among a very select few who have managed to couple TMS with an up - and - coming
technique known as diffusion tensor
imaging (DTI, see «
Live connections»).
For several years, Pinton has been trying to develop better ultrasound
imaging techniques for tracking shear waves in
living tissue.
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.
«
Technique allows
live imaging of «ubiquitous» player in cellular housekeeping.»
Joanna Fowler has made significant contributions to brain research and the understanding of diseases such as addiction, which she studies using positron emission tomography (PET), an
imaging technique that measures the concentration and movement of a positron - emitting radioisotope in
living tissue.
The researchers used this
live -
imaging technique to study fly embryos at a key stage in their development, approximately two hours after the onset of embryonic
life where the genes undergo fast and furious transcription for about one hour.
The
technique is an economical method that sequences a cell's complete set of transcripts and obtains
live imaging data for each individual cell.
Neuron pathways in the
living human brain shown with a magnetic resonance
imaging technique.
For the type I interferon (IFN) receptor (IFNAR) as a paradigm for functional plasticity, we have, within the first funding period, established single molecule
imaging techniques for monitoring receptor assembly and dynamics in the plasma membrane of
living cells.
Comprehensive analysis of mitochondrial permeability transition pore activity in
living cells using fluorescence -
imaging - based
techniques.
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.
By applying biophysical
techniques to elucidate the overall shape of ALC1 and combining these approaches with cell - based and
live - cell
imaging experiments, the authors of the article in Molecular Cell dissect the molecular mechanisms how the remodeling activity of ALC1 is controlled by its macro domain.
This
technique also offers the potential of
imaging nanometre - scale structures in
live cells.
Now armed with the human genome and a combination of cutting - edge genetic methods and brain
imaging techniques, lab scientists are now exploring the neural circuitry of
living animals in ways they could likely have never dreamed of even just 20 years ago.
Furthermore, the microscope will be capable of performing
live - cell super-resolution
imaging through structured illumination microscopy (SIM) and Super-Resolution Radial Fluctuations (SRRF); for fixed cells resolutions on the scale of tens of nanometres will be achievable using single molecule localization microscopy (SMLM)
techniques.
We are studying chromatin organisation and compaction, as well as the 4D human genome architecture by correlative
imaging approaches, including
live cell
imaging and various super-resolution
techniques (figure 2).
By using a combination of genetics, fix and
live imaging, cell biology and molecular biology
techniques we are exploring the consequences of polyploidy in the brain and epithelial tissues of Drosophila.
The Innovator Award will enable Sipkins to continue to combine state - of - the - art
imaging techniques, performed on
living mice, with cell and molecular biology approaches to learn more about these stem cell niches.
Our research strategy combines molecular and cell biology
techniques with
live - cell
imaging.
Aim 3: We are specifically interested how defects of nuclear proteins cause axonal phenotypes using
live cell
imaging techniques, inhibitor studies, laser irradiation, - omics approaches.
Experimental approach: To use patient - specific induce pluripotent cell models from a (i) storage disease (NCL), (ii) aggregate prone disease (ALS) and (iii) a disease with no aggregates but hyperexcitability (ChAc) combined with state of the art
live cell
imaging techniques, electrophysiology and biophysical tools (PIV, laser ablation for cortex tension measurements, AFM).