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Cell Imaging

$177,700P30FY2010CANIH

Northwestern University At Chicago, Evanston IL

Investigators

Linked publications, trials & patents

Trial NCT07639528Trial NCT07594626Trial NCT07594548Trial NCT07290543Trial NCT07261657Trial NCT07178301Trial NCT07169617Trial NCT07050186Trial NCT07042919Trial NCT06959641Trial NCT06813898Trial NCT06723457Trial NCT06630416Trial NCT06571734Trial NCT06499870Trial NCT06410248Trial NCT06327477Trial NCT06247540Trial NCT06244004Trial NCT06242834Trial NCT06184750Trial NCT06164275Trial NCT06137651Trial NCT06062498Trial NCT06060587Trial NCT06022822Trial NCT05879250Trial NCT05852041Trial NCT05802186Trial NCT05744739Trial NCT05733000Trial NCT05620771Trial NCT05576896Trial NCT05545150Trial NCT05453799Trial NCT05419011Trial NCT05411107Trial NCT05236036Trial NCT05202782Trial NCT05093387Trial NCT04931017Trial NCT04910425Trial NCT04795869Trial NCT04767984Trial NCT04753216Trial NCT04576104Trial NCT04550481Trial NCT04250051Trial NCT04227028Trial NCT04200443Trial NCT04049227Trial NCT04047706Trial NCT04033432Trial NCT04009044Trial NCT03854474Trial NCT03812562Trial NCT03742258Trial NCT03723915Trial NCT03704714Trial NCT03513484Trial NCT03317405Trial NCT03278925Trial NCT03226249Trial NCT03213041Trial NCT03146650Trial NCT03077828Trial NCT03070002Trial NCT03061188Trial NCT03048500Trial NCT03044730Trial NCT03036930Trial NCT03020017Trial NCT02993159Trial NCT02968810Trial NCT02965703Trial NCT02901899Trial NCT02892734Trial NCT02871323Trial NCT02861040Trial NCT02847559Trial NCT02837029Trial NCT02819804Trial NCT02808143Trial NCT02805868Trial NCT02794883Trial NCT02774681Trial NCT02743364Trial NCT02720484Trial NCT02694809Trial NCT02536794Trial NCT02530619Trial NCT02530502Trial NCT02530125Trial NCT02481310Trial NCT02365480Trial NCT02357810Trial NCT02314156Trial NCT02242097Trial NCT02237183Trial NCT02232516

Abstract

Modern cancer research requires state-of-the-art cell and tissue imaging technology. These techniques include immunolocalization studies at both the light and electron microscopic levels, live cell studies using molecules tagged with fluorescent probes and introduced by transfection or microinjection, and advanced image recording and analysis. Sophisticated imaging instruments such as electron microscopes, confocal and multi-photon microscopes are not only very expensive, but also require technical assistance for optimal results. For these reasons, it is essential to have a core imaging facility that provides access to both the instruments and technical expertise. Established more than 20 years ago as a departmental service, the Cell Imaging Facility has evolved into a Medical School Core Facility that receives support from the medical school, the Vice President for Research at NU, and the Robert H. Lurie Comprehensive Cancer Center. The Facility's Director, Dr. Teng-Leong Chew, Ph.D., is an expert in light microscopic imaging, especially in advanced live cell fluorescence microscopy. A full time electron microscope technologist is also available to perform routine cell and tissue embedding and sectioning as well as advanced techniques such as immunogold localization, and to train users in these techniques. The facility serves several hundred users from more than 100 research groups throughout the University. Due to the unique expertise as well as the staffs commitment to developing cutting-edge imaging application, the facility has been selected by numerous leading manufacturers as the beta test sites for their instruments and software. More importantly, the facility has been recognized as one of the three National Imaging Centers of Excellence by Nikon, thus benefiting Northwestern immensely through Nikon's gift of several state-of the-art equipments. Approximately 50 percent of total facility usage has been by Cancer Center members with peer reviewed funding. Equipment includes two transmission electron microscopes, two confocal microscopes, one spinning disc confocal, total internal reflection fluorescence (TIRF) microscope, three advanced light microscopes with digital imaging systems and capabilities that include microinjection, epifluoresence, time lapse photography, calcium imaging, FRAP, and FRET. Ancillary equipment includes rotary shadowing evaporators, microtomes, color printers, digital scanner, film recorder, dark room, and computers and software for image analysis.

View original record on NIH RePORTER →