In situ fluorescence imaging of organs through compact scanning head for confocal laser microscopy

Abstract

We develop a compact scanning head for use in laser confocal fluorescence microscopy for in situ fluorescence imaging of organs The head, cylindrical in shape, has 3.5 mm diameter and 30 mm length, and is thus small enough to operate in a living rat heart The lateral and axial resolutions, defined as full widths at half maximum (FWHM) of a point spread function (PSF), measures 1.0 and 5.0 μm, respectively, for 488-nm excitation and 1.0 and 5.4 μm, respectively, for 543-nm excitation. The chromatic aberration between 488- and 543-nm laser beams is well suppressed. We perform Ca 2+ imaging in cardiomyocytes through the right ventricular chamber of a perfused rat heart in line-scan mode with 2.9-ms time resolution. We also carried out two-color imaging of a fixed mouse heart and liver with subcellular resolution. The compact head of the microscope equipped with a line-scan imaging mode and two-color imaging mode is useful for in situ imaging in living organs with subcellular resolution and can advantageously be applied to in vivo research. © 2005 Society of Photo-Optical Instrumentation Engineers.