K.E. Lauhala scite author profile

Female, young adult, Wistar rats were given a single inhalation exposure to a submicron sized aerosol of high-fired 239PuO2 and observed during their lifespan for primary lung tumours. Rats were distributed among sham-control (n = 1052) and exposed (n = 2105) groups. Survival was significantly reduced only in rats with lung doses > 30 Gy. A total of 99 primary lung tumours were found, of which 92% were malignant and 80% were carcinomas. Of malignant lung tumours, 49 were squamous cell carcinoma, 23 adenocarcinoma, nine hemangiosarcoma, seven adenosquamous carcinoma, and three fibrosarcoma. One adenocarcinoma was found in controls and only four adenomas were seen in the exposed rat at lung doses < 1.5 Gy. The lowest doses at which lung tumours appeared in exposed rats were 1.5 Gy for squamous cell carcinoma, 3.1 Gy for adenocarcinoma. 4.1 Gy for hemangiosarcoma, and about 9 Gy for adenosquamous carcinoma and fibrosarcoma. Pulmonary squamous metaplasia was not seen in controls and was first seen in exposed rats only at lung doses > 1 Gy. Primary lung tumours were the presumed cause of death (fatal) in 60% of rats with malignant lung tumours; causes of death were equally distributed among all tumour types and doses. The incidence of all lung tumours was 0.095% in control rats, 0.21% in 1877 rats with lung doses < 1 Gy, and 41% in 228 rats with doses > 1 Gy. Lung tumour incidence increased in a linear manner from 6.9% at 2.3 Gy to an incidence of 64-88% at 16-44 Gy. Absolute malignant lung tumour risk averaged 270 lung tumours per 10(4) rat-Gy above a lung dose of 1 Gy. All types of malignant lung tumours induced by inhaled 239PuO2 exhibited a threshold at a lung dose > 1 Gy.

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Promotion of Pulmonary Carcinogenesis by Plutonium Particle Aggregation Following Inhalation of 239 PuO 2

Sanders¹,

McDonald²,

Lauhala³

1988

Radiation Research

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Promotion of lung tumor formation from inhaled 239PuO2 in rats may be associated with aggregation of plutonium particles near bronchioles. The relationship of plutonium particle aggregation in the lung and the development of lung tumors after inhalation of 239PuO2 was studied in 664 life span rats with mean lung doses ranging from 0.35 to 20 Gy. Plutonium particle concentration and aggregation were determined from autoradiographic sections of the left lung lobe. The increase in particles/cm2 and mean number of particles per aggregate up to 20 Gy were directly proportional to lung dose. Aggregates with greater than 25 particles increased linearly with dose from 0.2% at 1.4 Gy to 8.2% at 20 Gy, in a pattern similar to increasing severity of pulmonary fibrosis and incidence of lung tumors. Lung tumor incidence increased from about 6% at 1.4 Gy to 83% at 8 Gy; no further increase in lung tumors was seen at doses greater than 8 Gy. Maximum lung tumor incidence at 8 Gy corresponded to a particle concentration of 130/cm2 and four particles/aggregate with 4% of aggregates having greater than 25 particles. Aggregation of inhaled plutonium particles in clusters of greater than 25 particles resulted in daily doses of only a few centigray to focal tissue regions containing clustered particles, yet these doses appeared sufficient to cause pulmonary fibrosis and promotion of pulmonary carcinogenesis.

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Effects of ammonium sulfate aerosol exposure on lung structure of normal and elastase-impaired rats and guinea pigs

Busch

Buschbom

Cannon

et al. 1984

Environmental Research

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SEM Autoradiography: Aggregation of Inhaled²³⁹PuO₂

Sanders

McDonald

Lauhala

1988

International Journal of Radiation Biology

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Aggregation of inhaled 239PuO2 particles in the pulmonary region of the lung may be required for promotion of pulmonary carcinogenesis in rats. Female Wistar rats were exposed to an aerosol of 239PuO2 and their lungs examined by scanning electron microscopic (SEM) autoradiography. SEM autoradiography provides a rapid and inexpensive method for viewing a large lung tissue volume for alpha tracks. Evidence of particle aggregation was seen by 28 days postinhalation and was marked by 90 to 150 days post-inhalation. Subpleural plutonium particles resulted in exposure into the pleural cavity. Peribronchiolar, alveolar plutonium particles and particle aggregates gave the greatest radiation dose to the bronchiolar epithelium. High-dose, overlapping, alpha-track, radiation zones in bronchiolar epithelium may be required for maximum development of lung tumors.

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K.E. Lauhala

Experimental pulmonary emphysema induced in the rat by intratracheally administered elastase: Morphogenesis

Lifespan Studies in Rats Exposed to²³⁹PuO₂Aerosol. III. Survival and Lung Tumours

Promotion of Pulmonary Carcinogenesis by Plutonium Particle Aggregation Following Inhalation of 239 PuO 2

Effects of ammonium sulfate aerosol exposure on lung structure of normal and elastase-impaired rats and guinea pigs

SEM Autoradiography: Aggregation of Inhaled²³⁹PuO₂

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K.E. Lauhala

Experimental pulmonary emphysema induced in the rat by intratracheally administered elastase: Morphogenesis

Lifespan Studies in Rats Exposed to239PuO2Aerosol. III. Survival and Lung Tumours

Promotion of Pulmonary Carcinogenesis by Plutonium Particle Aggregation Following Inhalation of 239 PuO 2

Effects of ammonium sulfate aerosol exposure on lung structure of normal and elastase-impaired rats and guinea pigs

SEM Autoradiography: Aggregation of Inhaled239PuO2

Contact Info

Product

Resources

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Lifespan Studies in Rats Exposed to²³⁹PuO₂Aerosol. III. Survival and Lung Tumours

SEM Autoradiography: Aggregation of Inhaled²³⁹PuO₂