Each of the instruments are configured for
live imaging in several plate formats.
Using
live imaging in zebrafish to track oligodendrocytes in real time, researchers reporting in the June 24 issue of the Cell Press journal Developmental Cell discovered that individual oligodendrocytes coat neurons with myelin for only five hours after they are born.
Not exact matches
For example, one of the mission's instruments called the Mapping
Imaging Spectrometer for Europa (MISE) will identify and map the amount of possible
life - giving elements like organic material, salts, and acid hydrates
in Europa's surface and underwater ocean.
Most recently, she led the
in vivo
imaging business for PerkinElmer Inc and Caliper
Life Sciences as the global business leader.
It is
in imaging the exact specificity of this vision of the «good
life» that reason and fantasy discover their common interest.
There is also money
in the budget for
life saving AEDs
in the City of Tonawanda and a thermal
imaging camera for the Sheridan Park Volunteer Fire Company.
The researchers set up a system to grow asymmetric nerve cells
in an observation chamber and use
live cell
imaging to track how rabies virus particles are transported along the axons.
As well as medical
imaging and airport security scanning, masers could play a pivotal role
in improving sensors to remotely detect bombs, new technology for quantum computers, and might even improve space communication methods to potentially find
life on other planets.
David Monchaud, a chemist at the University of Burgundy
in France, was drawn to multiphoton
imaging for its precision, sensitivity, and ability to image
living cells.
The field of
live - cell
imaging has expanded greatly
in recent years, but still faces many challenges, such as how to improve spatial and temporal resolution as well as how to keep cells healthy for extended periods of time.
Thus, light - sheet systems have become the next wave
in live - cell
imaging for many scientists interested
in high - speed cellular activities, such as the firing of neurons or the flowing of blood cells.
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.
Under the tutelage of her PhD supervisor, Southampton's Sumeet Mahajan, Professor
in Molecular Biophotonics &
Imaging in Chemistry & Institute for
Life Sciences (IfLS), Catarina is using ultra-fast lasers to achieve the same effect but
in a less invasive way.
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.
At the moment the only way to accurately measure amyloid
in a
living person is either via costly positron emission tomography
imaging (PET scan) or by sampling cerebrospinal fluid (CSF) with a lumbar puncture, or spinal tap.
In cellular experiments, live cell imaging was used to monitor VP40 localization in human cell
In cellular experiments,
live cell
imaging was used to monitor VP40 localization
in human cell
in human cells.
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.
To surmount this hurdle, Dr. Hodgson and his colleagues
in the Gruss Lipper Biophotonics Center at Einstein devised a new fluorescent protein biosensor that, combined with
live - cell
imaging, revealed exactly when and where Rac1 is activated inside cancer cells.
Earlier, for his Ph.D., he used his physics training to study biological interactions at the molecular resolution — but for his postdoc he changed approaches dramatically, turning to cell biology and applying his skills to the development of high - resolution functional
imaging of DNA transcription
in living cells.
These results, along with
imaging technologies that capture pathogens
in the
living host, form a «scaffold» for future research into Lyme disease, says Joseph Breen, bacteriology program officer at the National Institute of Allergy and Infectious Diseases, which funded the work.
These
in turn depend on development of brain
imaging tests or biomarkers that could be measured
in the blood or other body fluids to allow a diagnosis of the disease
in living people.
These faster
imaging times mean the team can now look inside tissues
in living organisms, which is useful for a number of reasons, says Saar.
A novel study
in Arthritis Care & Research, a journal published by Wiley on behalf of the American College of Rheumatology (ACR), presents cases from Boston - area hospitals where victims were treated, examining the medical response and
imaging technologies used to save
lives and limbs.
A new brain
imaging study from MIT and Harvard Medical School may lead to a screen that could identify children at high risk of developing depression later
in life.
To better determine the role of specific chemoattractants
in type III hypersensitivity, lead author Yoshishige Miyabe, MD, PhD, a research fellow
in Luster's lab, used multiphoton intravital microscopy — an
imaging technology pioneered for studies of immune cell movements
in living animals by CIID investigator and co-author Thorsten Mempel, MD, PhD — to follow
in real time the development of IC - induced arthritis
in a mouse model of rheumatoid arthritis.
Using a novel approach for
imaging the movement of immune cells
in living animals, researchers from the Massachusetts General Hospital (MGH) Center for Immunology and Inflammatory Diseases (CIID) have identified what appear to be the initial steps leading to joint inflammation
in a model of inflammatory arthritis.
Scientists are taking medical
imaging research and drug discovery to a new level by developing a molecular imaging system that combines several advanced technologies for all - in - one imaging of both tissue models and live subjects, say presenters at the 2015 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging (
imaging research and drug discovery to a new level by developing a molecular
imaging system that combines several advanced technologies for all - in - one imaging of both tissue models and live subjects, say presenters at the 2015 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging (
imaging system that combines several advanced technologies for all -
in - one
imaging of both tissue models and live subjects, say presenters at the 2015 Annual Meeting of the Society of Nuclear Medicine and Molecular Imaging (
imaging of both tissue models and
live subjects, say presenters at the 2015 Annual Meeting of the Society of Nuclear Medicine and Molecular
Imaging (
Imaging (SNMMI).
To overcome these problems, Min and his team developed a new modality to visualize glucose uptake activity inside single cells based on stimulated Raman scattering (SRS)
imaging, and demonstrated its use
in live cancer cells, tumor xenograft tissues, primary neurons and mouse brain tissues.
This is the first time that
imaging with such a thin endoscope has been demonstrated
in a
living animal.
The researchers used high - resolution X-ray computed tomography (CT) at the Museum's Microscopy and
Imaging Facility, the National Museum of Natural History
in Paris, and the Biomaterials Science Center of the University of Basel
in Switzerland to scan the skulls of 21 felid specimens, including seven modern cheetahs (Acinonyx jubatus) from distinct populations, a closely related extinct cheetah (Acinonyx pardinensis) that
lived in the Pleistocene between about 2.6 million and 126,000 years ago, and more than a dozen other
living felid species.
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.
A recent
imaging scan hints at hidden chambers that could offer insights into questions surrounding the
life and death of the boy pharaoh and his place
in Egyptian history
The detection and
imaging of protein - protein interactions
in live cells just got a lot more colorful, thanks to a new technology developed by University of Alberta chemist Dr. Robert E. Campbell and his team.
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.»
A group from the NIH's National Institute of Allergy and Infectious Diseases (NIAID) evaluated the
live imaging system as a potential alternative to traditional methods of assessing investigative influenza vaccines and treatment
in mice, which can be time consuming and require more study animals for valid statistical comparison.
This type of mobile thermal
imaging could be used for monitoring breathing problems
in elderly people
living alone, people suspected of having sleep apnea or babies at risk for sudden infant death syndrome (SIDS).
«The movement of genes within the nucleus, captured here using
live imaging, seems to play a role
in switching their activity on and off,» said first author Dr Stefanie Rosa from the John Innes Centre.
receive practical advice on how to overcome some of the technical challenges
in live cell
imaging
«Integrating these molecular
imaging tools offers the opportunity to investigate the possible independent and synergistic contribution of these protein pathologies
in neurodegeneration
in the
living brain and, therefore, greatly advance our understanding of the mechanisms of Alzheimer's disease,» said Drzezga.
Researchers from Warwick Medical School and University Hospitals Coventry and Warwickshire NHS Trust used a magnetic resonance
imaging (MRI) based method to identify and confirm the presence of brown adipose tissue
in a
living adult.
What brain
imaging has made possible is being able to take
live human beings — we call them normal human adults;
in my lab they're MIT undergrads — put them
in a scanner, and get them to do all kinds of things.
These findings were confirmed by two - photon
imaging of neurons
in the brains of
living mice by the lab of collaborator Yi Zuo, PhD, a neuroscientist at UC Santa Cruz, as well as electrophysiological recordings from neurons
in brain slices by the lab of collaborator Vikaas Sohal, MD, PhD, an associate professor of psychiatry at UCSF.
The observation was validated using magnetic resonance
imaging of
live study participants by Eric Halgren, PhD, professor
in the Department of Neurosciences at UC San Diego School of Medicine, and colleagues.
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.
Through
live cell
imaging, they were able to identify a new triarylmethane compound that can rapidly inhibit cell division
in plant cells.