Estimating oxygen diffusive conductances of gas-exchange systems: A stereological approach illustrated with the human placenta

For many organisms, respiratory gas exchange is a vital activity and different types of gas-exchange apparatus have evolved to meet individual needs. They include not only skin, gills, tracheal systems and lungs but also transient structures such as the chorioallantois of avian eggs and the placenta...

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Veröffentlicht in:	Annals of anatomy 2014-01, Vol.196 (1), p.34-40
1. Verfasser:	Mayhew, Terry M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Adult Algorithms Diffusion Diffusive conductance Female Fetus - metabolism Humans Microscopy - methods Oxygen Oxygen - chemistry Oxygen Consumption - physiology Passive diffusion Physiology Placenta Placenta - anatomy & histology Placenta - metabolism Pregnancy Stereology Villous membrane
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description	For many organisms, respiratory gas exchange is a vital activity and different types of gas-exchange apparatus have evolved to meet individual needs. They include not only skin, gills, tracheal systems and lungs but also transient structures such as the chorioallantois of avian eggs and the placenta of eutherian mammals. The ability of these structures to allow passage of oxygen by passive diffusion can be expressed as a diffusive conductance (units: cm3O2min−1kPa−1). Occasionally, the ability to estimate diffusive conductance by physiological techniques is compromised by the difficulty of obtaining O2 partial pressures on opposite sides of the tissue interface between the delivery medium (air, water, blood) and uptake medium (usually blood). An alternative strategy is to estimate a morphometric diffusive conductance by combining stereological estimates of key structural quantities (volumes, surface areas, membrane thicknesses) with complementary physicochemical data (O2-haemoglobin chemical reaction rates and Krogh's permeability coefficients). This approach has proved valuable in a variety of comparative studies on respiratory organs from diverse species. The underlying principles were formulated in pioneering studies on the pulmonary lung but are illustrated here by taking the human placenta as the gas exchanger.
doi_str_mv	10.1016/j.aanat.2012.08.002
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subjects	Adult Algorithms Diffusion Diffusive conductance Female Fetus - metabolism Humans Microscopy - methods Oxygen Oxygen - chemistry Oxygen Consumption - physiology Passive diffusion Physiology Placenta Placenta - anatomy & histology Placenta - metabolism Pregnancy Stereology Villous membrane
title	Estimating oxygen diffusive conductances of gas-exchange systems: A stereological approach illustrated with the human placenta
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