ABSTRACT--We describe non-contact scanning with a confocal laser probe to measure surface contours for application to residual stress measurement. (In the recently introduced contour method, a part is cut in two with a flat cut, and the part deforms by relaxation of the residual stresses. A crosssectional map of residual stresses is then determined from measurement of the contours of the cut surfaces.) The contour method using laser scanning is validated by comparing measurements on a ferritic steel (BS 4360 grade 50D) weldment with neutron diffraction measurements on an identical specimen. Compared to lower resolution touch probe techniques, laser surface-contouring allows more accurate measurement of residual stresses and/or measurement of smaller parts or parts with lower stress levels. Furthermore, to take full advantage of improved spatial resolution of the laser measurements, a method to smooth the surface contour data using bivariate splines is developed. In contrast to previous methods, the spline method objectively selects the amount of smoothing and estimates the uncertainties in the calculated residual stress map.
Airway intra-luminal macrophages (AI-LM) are a little-studied subpopulation of pulmonary macrophages that are located on the surfaces of the conducting airways of the lower respiratory tract. In this study, we: (1) developed a flow cytometric approach by which AI-LM can be viably isolated in high purity from cell suspensions obtained by airway washings; (2) comparatively examined various functional, biochemical, biophysical, and morphologic features of the rat's AI-LM and alveolar macrophage (AM) phenotypes, and (3) investigated the origin of the AI-LM in the rat. Airway cells were harvested from the tracheas of adult Fischer-344 rats, and AM were obtained from the lungs by conventional bronchopulmonary lavage or via prosthetic airway circuits that supplanted the removed tracheas. Flow cytometric analyses of lavaged airway cells revealed that the AI-LM fell within the range of the electro-optical phenotype of AM, and subsequent cell-sorting experiments demonstrated that virtually all viable AI-LM could be sorted from contaminating airway epithelial cells in greater than 95% purity based on their electro-optical characteristics, e.g., electronic volume, axial light loss, 90 degrees light scatter, and blue and green autofluorescence signals. In Fc gamma receptor-mediated phagocytic studies, approximately 90% of AM engulfed opsonized erythrocytes (EIgG) whereas only 60% of the AI-LM were able to do so. Comparisons of the numbers of EIgG in phagocytic AM and in phagocytic AI-LM indicated the AI-LM were less phagocytic. Densitometric analyses of sorted AI-LM and of sorted AM stained for acid phosphatase, nonspecific esterase, and beta-glucuronidase indicated that the activities of these enzymes were generally less in the AI-LM than in the AM. Morphometric comparisons of sorted AM and of sorted AI-LM showed that the AI-LM were generally larger than the AM and that the surfaces and nuclei of the AI-LM were more regular than those of the AM. The AI-LM were found to strongly label with the monoclonal antibody ED1, which recognizes an antigen on the surfaces of rat AM, but the AI-LM did not label with the monoclonal antibody ED2, which recognizes an antigen on the surfaces of rat peribronchial and pulmonary perivascular macrophages. Over the course of alveolar phase clearance of a lung burden of polystyrene microspheres, the frequency distributions of the particles in AI-LM and in AM were found to be virtually identical.(ABSTRACT TRUNCATED AT 400 WORDS)
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