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Literature DB >> 6893551

Chemical and photoelectron spectrometry analysis of the adsorption of phospholipid model membranes and red blood cell membranes on to chrysotile fibres.

M C Jaurand, J H Thomassin, P Baillif, L Magne, J C Touray, J Bignon.

Abstract

A study of the interaction of phospholipid model membranes and red blood cell membranes with UICC A chrysotile fibres using chemical analysis and photoelectron spectrometry showed that the interaction agreed with an adsorption of the membranes on to the chrysotile fibres. The photoelectron spectrometry analysis allowed the statement that phospholipid model membranes are adsorbed as bilayer. Chemical analysis showed that for each milligram of chrysotile the amount of phospholipids adsorbed was about 155 microgram and the available surface for phospholipids was about 38 m/g. It was established that entire membranes were adsorbed. A mechanism for the haemolytic capacity of chrysotile is suggested.

Entities: Chemical

Mesh：

Substances：

Year: 1980 PMID： 6893551 PMCID： PMC1008685 DOI： 10.1136/oem.37.2.169

Source DB: PubMed Journal: Br J Ind Med ISSN： 0007-1072

12 in total

1. Surface charge and hemolytic activity of asbestos.

Authors: W G Light; E T Wei
Journal: Environ Res Date: 1977-02 Impact factor: 6.498

2. The adsorption of biological macromolecules by mineral dusts.

Authors: R Desai; R J Richards
Journal: Environ Res Date: 1978-07 Impact factor: 6.498

3. The prevention of asbestos-induced hemolysis.

Authors: R Desai; P Hext; R Richards
Journal: Life Sci Date: 1975-06-15 Impact factor: 5.037

4. Surface studies of mammalian cells grown in culture by X-ray photoelectron spectroscopy.

Authors: M M Millard; J C Bartholomew
Journal: Anal Chem Date: 1977-08 Impact factor: 6.986

5. Absorption of serum proteins by inorganic dusts.

Authors: B M Jones; J H Edwards; J C Wagner
Journal: Br J Ind Med Date: 1972-07

6. Structure of aqueous mixtures of lecithin and cholesterol.

Authors: H Lecuyer; D G Dervichian
Journal: J Mol Biol Date: 1969-10-14 Impact factor: 5.469

7. Surface charge and asbestos toxicity.

Authors: W G Light; E T Wei
Journal: Nature Date: 1977-02-10 Impact factor: 49.962

8. Hemolysis by asbestos.

Authors: J S Harington; K Miller; G Macnab
Journal: Environ Res Date: 1971-04 Impact factor: 6.498

9. Characterization of pulmonary surfactant from ox, rabbit, rat and sheep.

Authors: J L Harwood; R Desai; P Hext; T Tetley; R Richards
Journal: Biochem J Date: 1975-12 Impact factor: 3.857

10. Inhibition by phospholipids of haemolytic action of asbestos.

Authors: M C Jaurand; L Magne; J Bignon
Journal: Br J Ind Med Date: 1979-05

9 in total

1. A spin label study of the effects of asbestos, quartz, and titanium dioxide dusts on the bovine erythrocyte membrane.

Authors: W Leyko; E Gendek
Journal: Br J Ind Med Date: 1985-04

2. Adsorption of benzo(a)pyrene on to asbestos and manmade mineral fibres in an aqueous solution and in a biological model solution.

Authors: P Gerde; P Scholander
Journal: Br J Ind Med Date: 1988-10

Chemical and photoelectron spectrometry analysis of the adsorption of phospholipid model membranes and red blood cell membranes on to chrysotile fibres.

1. Surface charge and hemolytic activity of asbestos.

2. The adsorption of biological macromolecules by mineral dusts.

3. The prevention of asbestos-induced hemolysis.

4. Surface studies of mammalian cells grown in culture by X-ray photoelectron spectroscopy.

5. Absorption of serum proteins by inorganic dusts.

6. Structure of aqueous mixtures of lecithin and cholesterol.

7. Surface charge and asbestos toxicity.

8. Hemolysis by asbestos.

9. Characterization of pulmonary surfactant from ox, rabbit, rat and sheep.

10. Inhibition by phospholipids of haemolytic action of asbestos.

1. A spin label study of the effects of asbestos, quartz, and titanium dioxide dusts on the bovine erythrocyte membrane.

2. Adsorption of benzo(a)pyrene on to asbestos and manmade mineral fibres in an aqueous solution and in a biological model solution.

3. The use of liposomes in the investigation of mechanisms of asbestos damage.

4. A spin label study of the effect of chrysotile asbestos on erythrocyte membranes.

Review 5. Biological in vitro and in vivo responses of chrysotile versus amphiboles.

Review 6. Pulmonary toxicology of silica, coal and asbestos.

7. Interaction of erythrocyte membranes with particulates.

8. Mesothelioma: Do asbestos and carbon nanotubes pose the same health risk?

9. Studies using lectins to determine mineral interactions with cellular membranes.