Accession Number : AD0852993

Title :   Toxicological Studies on Beryllium and Oxides and Beryllium-Containing Exhaust Products.

Descriptive Note : Technical rept. 1 Jan 66-31 May 68,

Corporate Author : DOW CHEMICAL CO MIDLAND MI

Personal Author(s) : Spencer, Howard C. ; Hook, Robert H. ; Blumenshine, Judith A. ; McCollister, Susan B. ; Sadek, Salah E.

Report Date : DEC 1968

Pagination or Media Count : 268

Abstract : Results of long-term studies on rats and rabbits, injected intratracheally with well-characterized key samples of beryllium oxide prepared by calcining beryllium hydroxide for 10 hours at 500, 1100 and 1600 C, respectively, show clearly that there is a definite gradation in biological response depending upon the oxide administered. Thus, the oxide calcined at 500 C was highly active as judged by histopathological examination of the lungs, incidence of tumors, and translocation of beryllium from the lungs to other tissues. In contrast, the oxide calcined at 1600 C showed only minimal effects. Dose-response studies were carried out, using carefully prepared subsamples of 'respirable particle size' (1 to 5 microns) of the three key oxides; results showed a definite gradation in response which diminishes with decreasing dosages of the administered oxide. Investigations on motor exhaust products show that some samples have chemical, physical, and toxicological properties similar to the beryllium oxide calcined at 1600 C. On the other hand, other samples are heterogeneous, contain considerable quantities of water-soluble beryllium, and vary in toxicity. The mechanism of toxic action of beryllium oxide was investigated through study of chemical and physical properties, solubility and adsorption studies, serum electrophoretic analyses, and immunological experiments. Suggestions are made for further studies. (Author)

Descriptors :   (*ROCKET PROPELLANTS, EXHAUST GASES), (*BERYLLIUM OXIDES, TOXICITY), BIOASSAY, LETHAL DOSAGE, AEROSOLS, METAL POISONING, ELECTRON MICROSCOPY, PATHOLOGY.

Subject Categories : Toxicology
      Combustion and Ignition

Distribution Statement : APPROVED FOR PUBLIC RELEASE