ABSTRACT
A combination of energy-filtered electron microscopy (EFEM) and an image-analyzing system (IBAS/2000) is used for morphometric analyses of cells and (reaction) products. Image contrast is objectively established and segmentation is based upon intrinsic contrasts, in ultrathin sections. Cross-sectioned platinum-stained erythrocytes are used as a model to determine optimal conditions for constant measuring results for contrast, area and perimeter. Results are related to changes in: (1) the objective-lens diaphragm diameter, (2) three most frequently used contrast modes obtainable by electron spectroscopical imaging (ESI) in a Zeiss EM 902 transmission electron microscope (e.g., global, zero loss (or deltaE - 0 eV) and deltaE = 250 eV), and (3) the number of image integrations (1-250X) acquired by real-time video. A thresholding procedure is proposed for objective segmentation of such contrast-related images and applied to measure the area fraction of nuclear chromatin and the diameter of nominal 1 nm colloidal gold particles.