Surface activity in situ, in vivo, and in the captive bubble surfactometer
Identifieur interne : 003171 ( Main/Exploration ); précédent : 003170; suivant : 003172Surface activity in situ, in vivo, and in the captive bubble surfactometer
Auteurs : Samuel Schürch [Canada] ; Hans Bachofen [Suisse] ; Fred Possmayer [Canada]Source :
- Comparative Biochemistry and Physiology, Part A: Physiology [ 1095-6433 ] ; 2001.
English descriptors
Abstract
For studies of the mechanical effects of lung surfactants, the captive bubble surfactometer (CBS) combines the advantages of the continuous film of Pattle's bubbles with the feasibility of the Langmuir–Wilhelmy balance to produce surface tension–area hysteresis loops. The CBS allows the compression of films to very low and stable surface tensions of 1–2 mN/m. Such low and stable surface tensions are in line with results obtained from pressure–volume studies on excised lungs. In addition, the CBS is useful to test other essential physical properties of the surfactant system, including: (1) rapid film formation (within seconds) through adsorption from the hypophase; (2) low film compressibility with a fall in surface tension to very low (<2 mN/m) values during surface compression; and (3) effective replenishment of the surface film on expansion by the incorporation of surfactant material from material associated with the surface (the surface associated surfactant reservoir). Morphological observations of films fixed in situ or in vitro reveal frequently their multilayered structure, which is consistent with the concept of the surface reservoir. The deviation of the bubbles from a Laplacian shape at very low surface tension and the morphological observations suggest that the surfactant film cannot be considered a simple monolayer.
Url:
DOI: 10.1016/S1095-6433(01)00316-6
Affiliations:
- Canada, Suisse
- Alberta, Angleterre, Canton de Berne, Grand Londres
- Berne, Calgary, Londres
- Université de Calgary
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Le document en format XML
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The CBS allows the compression of films to very low and stable surface tensions of 1–2 mN/m. Such low and stable surface tensions are in line with results obtained from pressure–volume studies on excised lungs. In addition, the CBS is useful to test other essential physical properties of the surfactant system, including: (1) rapid film formation (within seconds) through adsorption from the hypophase; (2) low film compressibility with a fall in surface tension to very low (<2 mN/m) values during surface compression; and (3) effective replenishment of the surface film on expansion by the incorporation of surfactant material from material associated with the surface (the surface associated surfactant reservoir). Morphological observations of films fixed in situ or in vitro reveal frequently their multilayered structure, which is consistent with the concept of the surface reservoir. 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