Home – Home – Jornals – The journal "Ateroskleroz" 2020 number 2

Aim of the study was to investigate the atherosclerotic calcification employing our original technique of tissue staining, embedding, and backscattered scanning electron microscopy. Materials and methods. Atherosclerotic plaques excised during the carotid endarterectomy have been fixed in 10 % neutral phosphate buffered saline formalin for 24 hours, stained in 2 % osmium tetroxide for 60 hours and in alcoholic uranyl acetate for 5 hours with the subsequent epoxy resin embedding, grinding, polishing, lead citrate counterstaining for 7 minutes, sputter coating with carbon and backscattered scanning electron microscopy. We then analysed localisation, structure, and microenvironment of the calcium deposits. Results. Within the atherosclerotic plaques, we identified 3 distinct calcification morphologies: compact homogenous macrocalcifications, sheet-like heterogeneous macrocalcifications along the destructed collagen and elastin fibers, and microcalcifications around large calcium deposits with the sharp margins. However, even relatively homogenous compact macrocalcifications had uneven distribution of electron density. In conjunction with groups of mineral deposits of distinct calcium phosphate phases including nascent calcified loci, this testified to ongoing calcium phosphate maturation while multiple microcalcifications merging into the single macrocalcification indicated ossification. Compact ossifying macrocalcifications with smooth margins frequently had a dense connective tissue capsule. The microenvironment of calcium deposits was often characterised by leaky neovessels. Conclusion. Diversity of calcification morphologies and ossification in atherosclerotic plaques is similar to those observed in calcific aortic valve disease and bioprosthetic heart valve failure. Combined with atherosclerotic plaque disaggregation followed by flow cytometry and single-cell RNA sequencing, our technique may improve our understanding of atherosclerotic calcification and lead to the identification of appropriate therapeutic targets to prevent or retard this process.