plutonium-dioxide and Pulmonary-Fibrosis

Studies of health effects in animals after exposure to internally deposited radionuclides were intended to supplement observational studies in humans. Both nuclear workers and Beagle dogs have exhibited plutonium-associated lung fibrosis; however, the dogs' smaller gene pool may limit the applicability of findings to humans. Data on Beagles that inhaled either plutonium-238 dioxide ((238)PuO(2)) or plutonium-239 dioxide ((239)PuO(2)) were analyzed. Wright's Coefficient of Inbreeding was used to measure genetic or familial susceptibility and was assessed as an explanatory variable when modeling the association between lung fibrosis incidence and plutonium exposure. Lung fibrosis was diagnosed in approximately 80% of the exposed dogs compared with 23.7% of the control dogs. The maximum degree of inbreeding was 9.4%. Regardless of isotope, the addition of inbreeding significantly improved the model in female dogs but not in males. In female dogs, an increased inbreeding coefficient predicted decreased hazard of a lung fibrosis diagnosis. Lung fibrosis was common in these dogs with inbreeding affecting models of lung fibrosis incidence in females but not in males. The apparent protective effect in females predicted by these models of lung fibrosis incidence is likely to be minimal given the small degree of inbreeding in these groups.

Topics: Animals; Dogs; Female; Inbreeding; Inhalation; Male; Models, Biological; Plutonium; Pulmonary Fibrosis

Determination of radiation protection guidelines for persons working with plutonium has been complicated by limited human data on the biological behavior and subsequent health effects from internally deposited plutonium. One solution has been the use of animal models to predict likely health effects in humans. To compare the relationships between plutonium inhalation and lung fibrosis and lung cancer, data from life-span studies of beagle dogs given a single exposure to either plutonium-238 dioxide (238PuO2) or plutonium-239 dioxide (239PuO2) were analyzed. Estimates of the cumulative hazard of lung fibrosis and lung cancer after exposure to either were generated. The hazard of lung fibrosis was not consistent with a linear no-threshold model, although the magnitude of the threshold differed by radionuclide. In dogs given 239PuO2, the best model of lung fibrosis incorporated a linear dose-response function; a linear-quadratic dose-response function fit the data better in dogs given 238PuO2. At any given cumulative dose, the lung fibrosis hazard was greater for dogs given 238PuO2. In dogs given 238PuO2, with or without covariates, a quadratic dose-response function for lung cancer hazard fit better than a linear no-threshold model. In dogs given 239PuO2, models of lung cancer with the dose-response function as the sole predictor variable were consistent with a linear no-threshold model; however, a quadratic dose-response function with a cell-killing term fit better. These findings have implications for radiation protection because, while lung cancer hazard was dependent on cumulative dose, regardless of isotope, the lung fibrosis hazard depended on both cumulative dose and isotope.

Topics: Animals; Dogs; Dose-Response Relationship, Radiation; Incidence; Inhalation Exposure; Lung Neoplasms; Neoplasms, Radiation-Induced; Plutonium; Pulmonary Fibrosis

Beagle dogs inhaled graded exposure levels of insoluble plutonium dioxide ((239)PuO(2)) aerosols in one of three monodisperse particle sizes at the Lovelace Respiratory Research Institute (LRRI) to study the life-span health effects of different degrees of alpha-particle dose non-uniformity in the lung. The primary noncarcinogenic effects seen were lymphopenia, atrophy and fibrosis of the thoracic lymph nodes, and radiation pneumonitis and pulmonary fibrosis. Radiation pneumonitis/ pulmonary fibrosis occurred from 105 days to more than 11 years after exposure, with the lowest associated alpha-particle dose being 5.9 Gy. The primary carcinogenic effects also occurred almost exclusively in the lung because of the short range of the alpha-particle emissions. The earliest lung cancer was observed at 1086 days after the inhalation exposure. The most common type seen was papillary adenocarcinoma followed by bronchioloalveolar carcinoma. These lung cancer results indicate that a more uniform distribution of alpha-particle dose within the lung has an equal or possibly greater risk of neoplasia than less uniform distributions of alpha-particle dose. The results are consistent with a linear relationship between dose and response, but these data do not directly address the response expected at low dose levels. No primary tumors were found in the tracheobronchial and mediastinal lymph nodes despite the high alpha-particle radiation doses to these lymph nodes, and no cases of leukemia were observed.

Topics: Absorption; Animals; Dogs; Dose-Response Relationship, Radiation; Female; Hematology; Inhalation Exposure; Lung Neoplasms; Male; Particle Size; Plutonium; Pulmonary Fibrosis; Radiation Dosage; Radiation Pneumonitis; Radiometry; Risk Assessment; Tissue Distribution

Beagle dogs were exposed once or repeatedly to 0.75-microns-diameter monodisperse aerosols of 239PuO2 by pernasal inhalation. The dogs that were exposed once received alveolar depositions (+/- standard deviation) of 3.9 +/- 1.9 kBq/kg body mass and accumulated doses of 23 +/- 8 Gy to the lung before death at 5.4 +/- 1.7 years after exposure. Dogs exposed repeatedly received a total alveolar deposition of 5.3 +/- 0.9 kBq/kg body mass during 7 to 10 semiannual exposures and accumulated doses of 22 +/- 5 Gy to the lung before death at 4.9 +/- 0.7 years after first exposure. Clearance of the plutonium from the lung in the dogs exposed repeatedly was slower than in the dogs exposed once. All dogs in the repeated-exposure study and all but one dog in the single-exposure study died from radiation effects. Pulmonary fibrosis accounted for 72% of the radiation-related deaths in the single-exposure study and 87% in the repeated-exposure study. The remaining dogs died with pulmonary cancer. Based on total cumulative radiation dose, the times after exposure to death from radiation pneumonitis and pulmonary fibrosis were not significantly different for single and repeated exposures. Thus dose rate does not appear to be an important factor in predicting death from radiation pneumonitis or pulmonary fibrosis for dogs inhaling 239PuO2.

Topics: Administration, Inhalation; Aerosols; Animals; Dogs; Female; Male; Plutonium; Pneumonia; Pulmonary Fibrosis; Radiation Dosage; Radiation Injuries, Experimental; Survival Analysis; Time Factors

Mice were exposed by nose-only inhalation to 239PuO2, which resulted in an IAD of 1110 +/- 29 Bq. At various times after exposure, rates of collagen metabolism were measured using validated in vivo methods based on the administration of radiolabelled proline, together with a large flooding dose of unlabelled proline and measurement of its incorporation into lung collagen as hydroxyproline. Dramatic increases in both synthesis and degradation rates of collagen were observed. At 54 days after exposure the fractional synthesis rates in experimental mice were almost five times those in controls (control: 3.2 +/- 0.6%/day, 239PuO2-exposed: 14.5 +/- 0.4%/day) and by 300 days synthesis rates, although declining, were still more than double the control values. A similar pattern of change was observed for collagen degradation. The combination of changes in synthesis and degradation rates led to a 60% increase in lung collagen content by 300 days (control: 3.05 +/- 0.24 mg/lung, 239PuO2-exposed: 4.88 +/- 0.42 mg/lung). The data suggest that extensive remodelling of the lung connective tissue matrix occurs during development of fibrosis and that, over long periods of time, small imbalances between synthesis and degradation may result in quite large increases in protein content.

Topics: Administration, Inhalation; Animals; Collagen; Female; Lung; Mice; Mice, Inbred CBA; Plutonium; Pulmonary Fibrosis; Time Factors

We investigated the modifying effects of preexisting, bleomycin-induced pulmonary fibrosis on the deposition, retention, and biological effects of inhaled 239PuO2 in the rat. Among rats exposed to similar airborne concentrations of 239PuO2, initial lung burdens of 239Pu per kilogram body mass were similar whether or not pulmonary fibrosis was present. However, clearance of 239Pu from the lungs was significantly decreased in the rats with preexisting pulmonary fibrosis. The incidence of lung lesions (epithelial hyperplasia, diffuse macrophage increases and aggregation, and loose and dense connective tissue) was significantly greater among rats with preexisting pulmonary fibrosis than among the exposed controls. Rats with preexisting fibrosis had shorter life spans than 239PuO2-exposed control rats. When groups of rats with similar alpha doses to the lungs were compared, the incidences of neoplastic lesions in the lung, the times to death of rats with lung neoplasms, and the risk of lung tumors per unit of alpha dose to the lungs in rats with or without pulmonary fibrosis were similar. The results of this study suggest that humans with uncomplicated pulmonary fibrosis may not be more sensitive to the carcinogenic effects of inhaled 239PuO2 than are individuals with normal lungs, assuming that the total alpha doses to the lungs are similar.

Topics: Administration, Inhalation; Animals; Bleomycin; Female; Lung; Lung Neoplasms; Male; Neoplasms, Radiation-Induced; Plutonium; Pulmonary Fibrosis; Rats; Rats, Inbred F344

Six-week-old mice were exposed by inhalation to an aerosol of 239PuO2 (activity median aerodynamic diameter 2.2 microns) to establish mean alveolar depositions at 2 days after exposure of 4, 40, and 930 Bq of 239Pu. Animals were killed serially after 3, 6, 12, and 18 months at which times the development of the pulmonary fibrotic lesion was assessed by both biochemical and histopathological techniques. Individual measurements of both fresh and dry weights, protein, DNA, and hydroxyproline were made on whole lung and also on each of the five constituent lobes. Early and sustained increases in lung mass, lung protein, and total lung collagen were found, together with a depression of the total cellularity of the lung at 6 and 12 months after exposure. Although at later times compensatory hypertrophy of less affected areas distorted the relationship, systematic trends in the severity of responses between lobes were found. These trends were related to the initial lobar concentrations of 239Pu.

Topics: Animals; Autoradiography; DNA; Female; Hydroxyproline; Lung; Male; Organ Size; Plutonium; Proteins; Pulmonary Fibrosis; Rats

The relation of static compliance of excised lungs to collagen accumulation and histologic fibrosis was examined in Syrian hamsters inhaling sufficient 238PuO2 particles to achieve initial lung burdens of 50 or 100 nCi. Control animals were exposed to nonradioactive aerosols. Irradiated lungs from hamsters at both dose levels had compliance reduced to the same extent at point of maximal reduction. However, collagen accumulation was more closely related to 238Pu exposure level than the compliance measurements. Histologic examination revealed both diffuse alveolar thickening and some dense fibrous scars, the former predominating at lower dose levels. Hamsters exposed to 50 nCi 238PuO2 showed normal collagen content and static lung compliance with minimal histologic fibrosis 288 days after exposure. In contrast, hamsters exposed to 100 nCi had significant pulmonary fibrosis at that time and the highest incidence of dense scars at any time period. Such findings are consistent with a stiffening of lung parenchyma. They suggest that the diffuse interstitial fibrosis developed by this injury resolves spontaneously; dense fibrous scars, however, do not.

Topics: Animals; Cicatrix; Collagen; Cricetinae; Lung Compliance; Mesocricetus; Plutonium; Pulmonary Fibrosis; Radiation Injuries, Experimental; Remission, Spontaneous