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Literature DB >> 465374

Inhibition by phospholipids of haemolytic action of asbestos.

Abstract

Haemolysis by asbestos fibres results from an increase in membrane permeability and not from rupture of red blood cells (RBC). The effect of chrysotile asbestos on RBC is at least partly, if not completely, attributable to lipid extraction and adsorption on to the fibres. This was suggested by the hyperbolic relationship between the haemolytic activity of chrysotile and the relative concentration of both chrysotile and RBC. Moreover, it was shown that pre-incubation of chrysotile with lipids, either as RBC membranes or with pure lipids in the form of liposomes, prevents haemolysis.

Entities: Chemical Disease

Mesh：

Substances：
Phospholipids
Asbestos

Year: 1979 PMID： 465374 PMCID： PMC1008525 DOI： 10.1136/oem.36.2.113

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

10 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 prevention of asbestos-induced hemolysis.

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

3. Phospholipid model membranes. II. Permeability properties of hydrated liquid crystals.

Authors: D Papahadjopoulos; J C Watkins
Journal: Biochim Biophys Acta Date: 1967-09-09

4. Comparison of effects on macrophage cultures of glass fibre, glass powder, and chrysotile asbestos.

Authors: E G Beck; P F Holt; N Manojlović
Journal: Br J Ind Med Date: 1972-07

5. Haemolytic activity of asbestos and other mineral dusts.

Authors: G Macnab; J S Harington
Journal: Nature Date: 1967-04-29 Impact factor: 49.962

6. Haemolytic activity of suspensions of different silica modifications and inert dusts.

Authors: K Stalder; W Stöber
Journal: Nature Date: 1965-08-21 Impact factor: 49.962

7. Physico-chemical properties of silica in relation to its toxicity.

Authors: T Nash; A C Allison; J S Harington
Journal: Nature Date: 1966-04-16 Impact factor: 49.962

8. Asbestos hemolysis.

Authors: R J Schnitzer; F L Pundsack
Journal: Environ Res Date: 1970-01 Impact factor: 6.498

9. Hemolysis by asbestos.

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

10. Biological effects of chrysotile after SO2 sorption. II. Effects on alveolar macrophages and red blood cells.

Authors: M C Jaurand; J Bignon; A Gaudichet; L Magne; A Oblin
Journal: Environ Res Date: 1978-10 Impact factor: 6.498

10 in total

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

Authors: E Gendek; G Bartosz; W Leyko
Journal: Br J Ind Med Date: 1984-02

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

Authors: M C Jaurand; J H Thomassin; P Baillif; L Magne; J C Touray; J Bignon
Journal: Br J Ind Med Date: 1980-05

Review 8. Minerals, fibrosis, and the lung.

Authors: A G Heppleston
Journal: Environ Health Perspect Date: 1991-08 Impact factor: 9.031