This result gives rise to the possibility of using nanodiamonds, suitably treated to attach themselves to targets that we would like to detect, as MRI markers for
molecular imaging applications.
Not exact matches
Structured light, such as the above corkscrewed beam, can tell scientists a lot about the physics of light and have wide range of
applications from super resolution
imaging to
molecular manipulation and communications.
These so - called structured beams not only can tell scientists a lot about the physics of light, they have a wide range of
applications from super-resolution
imaging to
molecular manipulation and communications.
Combining these two elements to make a compact frequency comb generating long - wavelength light in the terahertz range can produce a useful source of radiation for a variety of
applications in
imaging, diagnostics, remote sensing, and identifying
molecular «fingerprints» of extremely complex molecules.
Specifically, the
imaging agents developed in the laboratory for use in fluorescence
molecular tomography, are now even being translated into the clinic for human diagnostic
applications.
CMIIT's mission is to engage the
molecular imaging community and leverage the SNMMI infrastructure to advance the adoption of emerging
molecular imaging technologies and probes in preclinical and clinical
applications.
His research interests include medicinal chemistry, nanotechnology, drug delivery, cell trafficking and
molecular imaging for theranostic
applications in cancer and Alzheimer's disease (AD).
One of several
applications developed by Automated
Molecular Imaging Group at The Scripps Research Institute.
Filling this gap holds promise for the translation of the high content information obtainable by
molecular imaging in individual cells into functional
imaging amenable to clinical
applications.
Nolting DD, Gore JC and Pham W. Near - Infrared Dyes: Probe Development and
Applications in Optical
Molecular Imaging.
Theranostics publishes innovative research articles reflecting the fields of in vitro diagnostics and prognostics, in vivo
molecular imaging,
molecular therapeutics, image - guided therapy, biosensors, system biology and translational medicine, personalized medicine and a broad spectrum of biomedical research that can be applied to future theranostic
applications.
Review standard, new, and relevant advances in
molecular imaging including
applications in oncology, cardiology, and neurology.
The guide summarizes the indications and
applications of
molecular imaging and nuclear medicine for diagnosis, staging, and therapy of malignancy.
Additional confocal
applications include microirradiation to study DNA - damage repair, 3D reconstructions and time - lapse
imaging of dynamic cell and
molecular processes.