Pietro M. Motta – författare
Visar alla böcker från författaren Pietro M. Motta. Handla med fri frakt och snabb leverans.
2 produkter
2 produkter
Inbunden, Engelska, 1990
3 355 kr
Skickas inom 10-15 vardagar
The calcified tissues have fundamental functions in the biology of organisms, not only because their strength, solidity, and elasticity permit movement and mechanical activities, and protect soft tissues against traumatic forces, but also on account of their role in mineral homeostasis. For this reason, extensive investigation in the last 30 years has provided much to explain the complex chemical and physical processes occurring in cells and matrices composing the skeleton, and their alterations in pathological conditions. The use of ultrastructural methods such as immunocytochemistry, scanning and transmission electron microscopy, cytoautoradiography, freeze/fracture etching, high voltage, etc. has proven to be of great value when applied to cells and matrix components of bone and cartilage, in spite of the technical difficulties due to the hardness of these tissues. However, available information on this subject is disseminated in a variety of scientific and medical articles. This volume is an attempt to collect together the most significant data on the ultrastructure of cartilage and bone in normalcy and pathology. Obviously, it cannot be a complete report of all these data, its principal aim being that of: a) giving a comprehensive statement of the results concerning the basic structures common to these tissues, especially collagen fibrils, noncollagenous proteins, and proteoglycans, and their relationships with the mineral substance (for which another volume of this series can also be consulted; see Ruggeri A. , Motta P. M. (eds.
E-bok
Engelska, 2014756 kr
Läs direkt efter köp
Three Dimensional Microanatomy of Cells and Tissue Surfaces focuses on the use of scanning electron microscopy in the study of the microanatomy of cells and tissues, cell relationships, and complex biological relationships. The selection first elaborates on the technical aspects of stereoprojection for electron microscopy; three-dimensional microanatomy of intracellular structures; microcirculation studies by the injection-replica method with special reference to portal circulations; and three-dimensional architecture of the mammalian liver. Discussions focus on the preparation of vascular casts, portal circulations of various organs, scanning electron microscopy, copying and printing stereopair negatives, stereoprojection, and high voltage electron microscopy. The text then takes a look at scanning electron microscope bloodvessel casts analysis, three dimensional microanatomy of reticular tissues, kidney glomerular epithelium in response to different physiological states and experimental conditions, and mammalian renal papilla and pelvis. The manuscript examines the lung in scanning electron microscopy and stereopresentation, surface topography of endocardial endothelium, scanning electron microscopy of endothelium, human vas deferens, and seminal vesicles, and dynamic morphology of the apical membrane of lactating cells viewed by freeze-fracture. The selection is a valuable reference for researchers interested in the use of scanning electron microscopy in the study of the microanatomy of cells and tissues and biological relationships.