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These techniques are normally used in conjunction with confocal microscopy.
An example of an image generated with confocal microscopy.
Confocal microscopy is therefore commonly used where 3D structure is important.
Confocal microscopy uses a scanning point or points of light to illuminate the sample.
Confocal microscopy, another similar technique, typically penetrates less deeply into the sample.
Two-dimensional systems are essential for most applications in material processing, confocal microscopy, and medical science.
Small strips of muscle were cut that were suitable for confocal microscopy.
Their instrument theoretically could resolve structures 1.75 times smaller than conventional confocal microscopy.
Confocal microscopy demonstrated clearly that the antibodies label structures within the nucleus.
SEM confirmed many of the observations made by confocal microscopy.
Analysis of the cells by confocal microscopy (Fig.
It is also possible to calculate directly by extracting particle positions from traditional or confocal microscopy.
By the 1990s new technology such as confocal microscopy allowed more rapid survey of large areas of tissue.
Confocal microscopy generates the image in a completely different way to normal "wide-field" microscopes.
FluoRender, an interactive rendering tool for confocal microscopy data visualization.
When visualized by confocal microscopy, the response in Xenopus oocytes had two phases.
(However, thick sections are compatible and sometimes even desirable if using confocal microscopy.)
Confocal microscopy revealed significant pleomorphism and polymegethism of endothelial cells.
While confocal microscopy can be used for diagnosis, biopsy is considered the standard, especially before treatment with a cytotoxic medication.
Individual species within the genus are distinguished on the basis of chloroplast appearance observed in light- or confocal microscopy.
Micrometre-scale colloidal particles are large enough to be observed by optical techniques such as confocal microscopy.
Raman microscopy, and in particular confocal microscopy, has very high spatial resolution.
We employed confocal microscopy as a tool to investigate the effects of mefloquine on calcium homeostasis.
Melanoma diagnosis by confocal microscopy: Promise and pitfalls.
This formula is suitable for confocal microscopy, but is also used in traditional microscopy.
In addition, confocal laser scanning microscopy has been used to observe crystal growth near a glass surface.
The quantification is done by confocal laser scanning microscopy after application of the dye to living cells.
This method is essentially confocal laser scanning microscopy.
This, together with their small size, facilitates live cell imaging using both fluorescence and confocal laser scanning microscopy.
Multiphoton fluorescence microscopy has similarities to confocal laser scanning microscopy.
Professor Rudnicka and her co-workers were the first to apply in vivo confocal laser scanning microscopy in hair diagnostics.
His fields of interest include confocal laser scanning microscopy, interferometry, signal and image processing, neural networks, and complex adaptive systems.
PI is suitable for fluorescence microscopy, confocal laser scanning microscopy, flow cytometry, and fluorometry.
It uses the technique of confocal laser scanning microscopy for diagnostic imaging of retina or cornea of the human eye.
Cutting-edge development of confocal laser scanning microscopy now allows better than standard video rate (60 frames/second) imaging by using multiple microelectromechanical systems-based scanning mirrors.
Also, with a method called confocal laser scanning microscopy (CLSM), doctors can look even more closely at changes in the cells and tissue of the skin.
Confocal laser scanning microscopy and Two-photon excitation microscopy make use of lasers to obtain blur-free images of thick specimens at various depths.
Our experiments were focused on the analysis of microextensions and their cytoskeletal core by SEM and confocal laser scanning microscopy by searching for a new fixation protocol.
Confocal laser scanning microscopy Blocking of nonspecific binding sites and incubation with antibodies basically followed procedures detailed in references, but cells were stained as follows when descriptions were lacking.
Confocal laser scanning microscopy (CLSM or LSCM) is a technique for obtaining high-resolution optical images with depth selectivity.
Using molecular markers such as green fluorescent protein or fluorescent antibodies it is possible to monitor the location of individual rhizobacteria on the root using confocal laser scanning microscopy,,.
It is used to measure Ca inside living cells in flow cytometry and confocal laser scanning microscopy using visible light excitation (compatible with argon laser sources operating at 488 nm).
It is a useful concept in Fourier optics, astronomical imaging, electron microscopy and other imaging techniques such as 3D microscopy (like in Confocal laser scanning microscopy) and fluorescence microscopy.
It may be possible to extend the techniques of serial sectioning and to capture the internal molecular makeup of neurons, through the use of sophisticated immunohistochemistry staining methods that could then be read via confocal laser scanning microscopy.
This process may be carried out by wide-field irradiation of the sample (for example standard light microscopy and transmission electron microscopy) or by scanning of a fine beam over the sample (for example confocal laser scanning microscopy and scanning electron microscopy).
In fluorescence microscopy, fluorescence confocal laser scanning microscopy, as well as in molecular biology, FRET is a useful tool to quantify molecular dynamics in biophysics and biochemistry, such as protein-protein interactions, protein-DNA interactions, and protein conformational changes.