Open AccessFluorescent Cell Imaging in Regenerative Medicine
Author(s) -
Etai Sapoznik,
Guoguang Niu,
Yu Zhou,
Sean V. Murphy,
Shay Söker
Publication year - 2016
Publication title -
biomedical engineering and computational biology
Language(s) - English
Resource type - Journals
ISSN - 1179-5972
DOI - 10.4137/becb.s39045
Subject(s) - regenerative medicine , förster resonance energy transfer , live cell imaging , regeneration (biology) , fluorescence lifetime imaging microscopy , preclinical imaging , molecular imaging , nanotechnology , fluorescence , in vivo , cell , stem cell , microbiology and biotechnology , biology , materials science , physics , genetics , quantum mechanics
Fluorescent protein imaging, a promising tool in biological research, incorporates numerous applications that can be of specific use in the field of regenerative medicine. To enhance tissue regeneration efforts, scientists have been developing new ways to monitor tissue development and maturation in vitro and in vivo. To that end, new imaging tools and novel fluorescent proteins have been developed for the purpose of performing deep-tissue high-resolution imaging. These new methods, such as intra-vital microscopy and Förster resonance energy transfer, are providing new insights into cellular behavior, including cell migration, morphology, and phenotypic changes in a dynamic environment. Such applications, combined with multimodal imaging, significantly expand the utility of fluorescent protein imaging in research and clinical applications of regenerative medicine.
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