Figure 1: Live -
cell imaging of Ki - 67 (green) during the cell cycle reveals its re-localisation from nucleoli to the surface of mitotic chromosomes (magenta).
Live
cell imaging of actin dynamics in the filamentous fungus aspergillus nidulans.
Live
Cell Imaging of Paxillin in Rolling Neutrophils by Dual - Color Quantitative Dynamic Footprinting.
Live -
Cell Imaging of Autophagy Induction and Autophagosome - Lysosome Fusion in Primary Cultured Neurons.
Live -
Cell Imaging of Meiotic Spindle and Chromosome Dynamics in Maize (Zea mays).
«Live
cell imaging of asymmetric cell division in fertilized plant cells: Insight into why leaves grow up and roots grow down in flowering plants.»
Not exact matches
I won't reveal yet who my favorites are, but I will say that these young scientist - founders came up with very creative solutions for preventing infections in some common surgeries, tackling resistance in targeted antibody drugs, improving gene vectors for
cell therapies, helping the vision - impaired «see» faces and better read their environments,
imaging hard - to - see spots in the lungs and other organs, improving genetic risk analysis, and expediting the logistical operations
of hospitals.
A veteran
of digital
imaging technology, in 1999 he founded Quantitative Imaging Corp. (QImaging), a manufacturer of digital cameras for scientific and industrial uses — the kind, for example, that can detect microscopic, early - stage cancer
imaging technology, in 1999 he founded Quantitative
Imaging Corp. (QImaging), a manufacturer of digital cameras for scientific and industrial uses — the kind, for example, that can detect microscopic, early - stage cancer
Imaging Corp. (QImaging), a manufacturer
of digital cameras for scientific and industrial uses — the kind, for example, that can detect microscopic, early - stage cancer
cells.
CAREstream America also distributes a large line
of Aesthetic products ranging from water - jet assisted technology, to ultrasound
imaging, to
cell counting and vascular access
imaging.
«The new Park Nanoscience Center at SUNY Polytechnic Institute provides researchers with greater access to Park Systems» cutting - edge AFM nanoscopic tools, featuring reliable and repeatable high - resolution
imaging of nanoscale
cell structures in any environment without damage to the sample.»
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.
Biologist Ann Cornell - Bell
of Viatech
Imaging in Ivoryton, Connecticut, put on display star - shaped
cells, called astrocytes, from the rat hippocampus, a brain region associated with long - term memory.
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.
A new 3 - D
imaging technique enables viewers to track the life
of living
cells — how they grow and move around — without disturbing them.
Instead, the team used functional magnetic resonance
imaging (fMRI) to detect populations
of cells that seemed to fire as the volunteers played a virtual reality game in which they had to replace an object in the location where they originally found it.
Immunohistochemical
imaging of female human amniotic stem
cells incubated with nanoparticles demonstrated a significant increase in uptake compared to male
cells.
Furthermore, brain
imaging data for these very elderly animals shows a slight loss
of grey matter (neuronal
cell bodies), an effect that the researchers have not yet explained, as well as significantly slowed atrophy
of white matter (the neuronal fibers connecting different areas
of the brain).
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.
After
imaging defiant metastatic
cells in the brains
of mice, researchers noticed that the
cells that were able to survive grew on top
of blood capillaries, each
cell sticking closely to its vessel «like a panda bear hugging a tree trunk,» Dr. MassaguĂ© says.
Neuroscientists at Cold Spring Harbor Laboratory (CSHL) have mobilized advanced
imaging and computational methods to comprehensively map — «count» — the total populations
of specific types
of cells throughout the mouse brain.
The use
of nuclear
imaging enables the researchers to monitor expansion
of the corrected
cells through a noninvasive
imaging process.
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.
When Conklin joined his lab, he had no experience in his PI's core area
of cancer research, but he brought valuable expertise in
cell imaging techniques.
In this way, Louvard believes the institute will gain most from its mix
of research disciplines and potential for translational research, involving anything from theoretical physics and pharmacochemistry through
cell biology and radiobiology to
imaging and bioinformatics.
Using chemicals like these in combination with new
imaging tools, such as the multi-photon confocal microscope, has enabled researchers to explore the minuscule world
of the neuron and observe brain
cells in action with far more precision.
The results will allow, for the first time, the
imaging of nanoscale processes, such as the engulfment
of nanoparticles into
cells.
The technique could also be modified for microscopy, allowing
imaging of photosynthesis inside the plant
cells.
Using an advanced
imaging technique called intravital microscopy, the researchers followed the movement and interaction
of HIV - infected
cells in the spleen
of mice.
Scientists at Barrow Neurological Institute have recently made discoveries about use
of a new technology for
imaging brain tumors in the operating room — a finding that could have important implications for identifying and locating invading
cells at the edge
of a brain tumor.
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.
X-ray-like
imaging without the harmful radiation and
cell phones with more bandwidth are closer to reality now that researchers have developed a novel type
of lens that works with terahertz frequencies.
MIT researchers have developed a way to measure white blood
cell levels by
imaging the
cells as they flow through capillaries at the base
of the fingernail.
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.
His research largely focuses on new means to incorporate
imaging methods to view
cells of brain tumors with a hand held instrument that a neurosurgeon can use to visualize the individual
cells during the progress
of the operation.
Because SR - STORM gives full spectral and spatial information for each molecule, the technology opens the door to high - resolution
imaging of multiple components and local chemical environments, such as pH variations, inside a
cell.
It also includes an
imaging station and CellSelect software, which images each nanowell and provides automatic selection
of single
cells for downstream processing.
Companies making high - content
cell imaging equipment such as confocal microscopes and plate readers are now adding software tools to process images
of 3D
cell cultures.
In a study presented in the featured clinical investigation article
of the November issue
of The Journal
of Nuclear Medicine, they used 18F - fluorodeoxyglucose (FDG) PET / CT
imaging to show that the amount
of cell - free tumor DNA circulating in the bloodstream correlates with tumor metabolism (linked to cancer aggressiveness), not tumor burden (amount
of cancer in the body).
«After surgery, you always have microscopic
cells that spread,» he says, «and they hide throughout the brain, beyond the areas we can visualize by any kind
of imaging technology.
The researchers took molecules
of different sizes and colours and used microscopic
imaging to see which size
of molecule could get into the gap between an immune
cell and another
cell.
Hwang said the study would provide data about the best candidates for active surveillance, and create a repository
of imaging and
cell samples to advance knowledge into the molecular biology
of DCIS and what fuels or deters its growth.
Proteins from jellyfish and corals that fluoresce in the visible wavelength range have revolutionized optical
imaging of cells.
«We have shown that pericytes initiate the increase in blood flow seen when nerve
cells become active, so we now know that functional
imaging signals are caused by a pericyte - mediated increase
of capillary diameter.
Continuous measurement and
imaging of the intracellular free calcium ion concentration -LRB-[Ca2 +] i)
of mitotic and interphase PtK1
cells was accomplished with the new fluorescent Ca2 + indicator fura - 2.
This method has already been used successfully to reach a maximum resolution in the
imaging of cells.
They were able to follow the activity
of the immune
cells using time - lapse 3 - D microscopy
imaging of fish retinas and found that neutrophils, the type
of immune
cells that are typically the first responders to tissue injury, were largely unresponsive to photoreceptor death.
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.
The researchers were able to trace the development
of these two
cell types with unprecedented clarity by advancing very powerful
imaging techniques that are available in the fruit fly.
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.