Back Cover: J. Biophoton. 7/2010

## Abstract Video rate STED Nanoscopy visualizes the motion of neurotransmitter vesicles in living neurons. A STED highresolution movie (front filmstrip) resolves individual objects in the axons. In contrast, a confocal movie (back filmstrip) shows only unspecific motion. (Picture: M. A. Lauterbac

## Abstract Hyperspectral imaging microscopy of rat lung cryoslices can be used to identify individual pulmonary microvascular endothelial cells (PMVECs) in the presence of a high lung autofluorescence of the same peak fluorescence emission wavelength. PMVECs expressing green fluorescent protein ar

## Abstract Glass substrate after femtosecond laser irradiation of six devices that will be obtained by six cuts along the transversal straight lines and a further orthogonal one. Chemical etching will create micro‐channels where the more complex structures have been irradiated, while not affecting

## Abstract Multiphoton tomography provides optical biopsies with high subcellular submicron resolution based on twophoton excited autofluorescence and second harmonic generation. Even single intratissue mitochondria can be imaged. (Picture: K. König, pp. 759–773 in this issue)

Video rate STED Nanoscopy visualizes the motion of neurotransmitter vesicles in living neurons. A STED highresolution movie (front filmstrip) resolves individual objects in the axons. In contrast, a confocal movie (back filmstrip) shows only unspecific motion. (Picture: M. A. Lauterbach et al., see