Your search keyword '"L. Lundgren"' showing total 17 results

1. Dryland Forestry: Planning and Management

Author

Hans M. Gregersen, Nicholas S. Van Pelt, Peter F. Ffolliott, Kenneth N. Brooks, and Allen L. Lundgren

Subjects

Geography, Ecology, Agroforestry, Animal Science and Zoology

Published

1997

2. Dose Responses from Inhaled Monodisperse Aerosols of 244 Cm 2 O 3 in the Lung, Liver and Skeleton of F344 Rats and Comparison with 239 PuO 2

Author

William C. Griffith, Raymond A. Guilmette, Nancy A. Gillett, Fletcher F. Hahn, David L. Lundgren, and William W. Carlton

Subjects

Radiation, Lung, business.industry, Chemistry, Dispersity, Radiochemistry, Biophysics, F344 rats, Alpha particle, Body weight, Skeleton (computer programming), Ambient air, medicine.anatomical_structure, medicine, Radiology, Nuclear Medicine and imaging, Respiratory system, Nuclear medicine, business

Abstract

The purpose of this study was to obtain information on the {alpha}-particle dose-response relationship of {sup 244}Cm in rats. Rats were exposed briefly by inhalation to graded levels of monodispersive aerosols of {sup 244}Cm{sub 2}O{sub 3} heat-treated at 1150{degrees}C. The initial lung burden (ILB) of each animal was determined by the use of the {gamma}-ray-emitting radionuclide {sup 243}Cm in the aerosols. Seven groups of 84-day-old F344/Crl rats (a total of 637 males and 645 females) were exposed once to {sup 244}Cm{sub 2}O{sub 3} or sham-exposed to filtered ambient air. Mean ILBs of all rats per group ranged from 0.51 {+-} 0.17 ({+-}SD) to 240 {+-} 82 kBq kg{sup -1} body weight. Mean life-time {alpha}-particle doses to the lungs per group ranged from 0.20 {+-} 0.069 ({+-}SD) to 36 {+-} 6.5 Gy. After death, each rat was radiographed and necropsied. Dose-related increases occurred in incidences of benign and malignant lung neoplasms, except for the groups of rats with higher mean ILBs that were examined histologically (98 {+-} 18 and 240 {+-} 77 kBq kg{sup -1} body weight) in which survival was markedly decreased. Also, average {alpha}-particle doses of 0.0014 {+-} 1.1 Gy were also absorbed by the liver and skeleton, respectively,more » in the rats in the different exposure groups. Primary liver neoplasms occurred in several rats. However, the incidence of these lesions was not related to dose. Increased incidences of bone neoplasms occurred only in rats receiving higher doses to the skeleton. Inhaled {sup 244}Cm{sub 2}O{sub 3} appeared to be about 50% less effective as a lung carcinogen in rats compared to {sup 239}PuO{sub 2} similar doses. 58 refs., 10 figs., 10 tabs.« less

Published

1997

3. Pulmonary Carcinogenicity of Relatively Low Doses of Beta-Particle Radiation from Inhaled 144 CeO 2 in Rats

Author

George J. Newton, William C. Griffith, Kristen J. Nikula, David L. Lundgren, Bruce B. Boecker, Ann F. Hubbs, Fletcher F. Hahn, and R.G. Cuddihy

Subjects

medicine.medical_specialty, Radiation, Inhalation, business.industry, Low dose, Biophysics, Confidence interval, Endocrinology, Internal medicine, Beta particle, medicine, Radiology, Nuclear Medicine and imaging, Respiratory system, business, Beta (finance), Nuclear medicine, Carcinogen

Abstract

This study was conducted to examine the carcinogenic effects of inhaled {beta}-particle-emitting radionuclides, particularly in lower dose regions in which there were substantial uncertainties associated with available information. A total of 2751 F344/N rats (1358 males and 1393 females) approximately 12 weeks of age at exposure were used. Of these, 1059 rats were exposed to aerosols of {sup 144}CeO{sub 2} to achieve mean desired initial lung burdens (ILBs) of 18 kBq (low level), 247 rats to achieve mean ILBs of 60 kBq (high level). Control rats (total of 1064) were exposed to aerosols of stable CeO{sub 2}. Based on the 95% confidence intervals of the median survival times and the cumulative survival of groups of female and male exposed rats relative to controls. The mean lifetime {beta}-particle doses to the lungs of the rats in the four groups were: low level, 3.6 {+-} 1.3 ({+-} SD) Gy; medium level, 6.1%; and high level, 19%. The estimated linear risk coefficient at the lower level was 39 {+-} 14 ({+-} SE) excess lung neoplasms per 10{sup 4} rat Gy; at the medium level the risk was 47 {+-} 12; and at the higher level the risk was 50 {+-} 9.0. The relationshipmore » of {beta}-particle dose to the lung and the crude incidence of lung neoplasms was described adequately by a linear function. We concluded that the risk of lung neoplasms in rats per unit of radiation dose did not increase with decreasing mean {beta}-particle dose to the lung over the range of 3.6 to 37 Gy. the weighted average of these three values was 47 {+-} 6.4 ({+-} SE) excess lung neoplasms to lower doses by experimentation will require much larger numbers of rats than used in this study. 39 refs., 5 figs., 8 tabs.« less

Published

1996

4. Pulmonary Carcinogenesis in the F344 and Wistar Rat after Inhalation of Plutonium Dioxide

Author

C. L. Sanders and D. L. Lundgren

Subjects

Pathology, medicine.medical_specialty, Radiation, Lung, Inhalation, Strain (chemistry), business.industry, Respiratory disease, Biophysics, respiratory system, medicine.disease, medicine.disease_cause, Squamous metaplasia, medicine.anatomical_structure, Metaplasia, medicine, Radiology, Nuclear Medicine and imaging, Radiosensitivity, medicine.symptom, business, Carcinogenesis

Abstract

Pulmonary carcinogenesis was compared in female F344 and Wistar rats after inhalation of high-fired {sup 239}PuO{sub 2}. Plutonium particle aggregation, as determined by quantitative light and scanning electron microscopic autoradiography, was greater for the F344 strain than for the Wistar strain. The median survival times were similar in control and low-dose (0.8-1.0 Gy) groups of both strains, but were significantly decreased in the high-dose (34-37 Gy) groups of both strains. Squamous metaplasia was not found in control or low-dose groups of either strain, but was found in 62-65% of high-dose groups of both strains. Adenomatous metaplasia was considerably higher in control and low-dose groups of F344 rats than in Wistar rats. A total of 87 lung tumors were found in 140 exposed F344 rats and 46 lung tumors in 176 exposed Wistar rats. The incidence of lung tumors in F344 rats was 1.7% in controls, 20% in the low-dose group and 82% in the high-dose group. The incidence of lung tumors in Wistar rats was 0.1% in controls, nil in the low-dose group and 68% in the high-dose group. The median survival times of rats of both strains in the high-dose groups that died with lung tumors were greater comparedmore » with rats in these groups that died without lung tumors. In contrast, these differences did not occur among rats in the low-dose groups. The absolute risk was 1900 lung tumors per 10{sup 4} Rat-Gy for F344 rats but about 210 lung tumors per 10{sup 4} Rat-Gy for high-dose groups of both strains. The adenomatous tumor phenotype predominated in the F344 strain, while the squamous tumor phenotype predominated in the Wistar strain. Risk of squamous tumors was similar for both strains. Overall, the F344 strain appears to be more {open_quotes}sensitive{close_quotes} than the Wistar strain to formation of lung tumors at low to moderate doses from inhaled {sup 239}PuO{sub 2}. 31 refs., 1 fig., 7 tabs.« less

Published

1995

5. Pulmonary Carcinogenicity of Repeated Inhalation Exposure of Rats to Aerosols of 239 PuO 2

Author

Bobby R. Scott, Fletcher F. Hahn, David L. Lundgren, William C. Griffith, J. H. Diel, and Patrick J. Haley

Subjects

Inhalation exposure, Radiation, Lung, Inhalation, business.industry, Radiochemistry, Biophysics, Crude incidence, Alpha (ethology), Alpha particle, respiratory system, medicine.anatomical_structure, Relative biological effectiveness, Medicine, Radiology, Nuclear Medicine and imaging, business, Nuclear medicine, Carcinogen

Abstract

To study the long-term biological effects of repeated inhalation exposure to {sup 239}PuO{sub 2}, 84-day-old rats were exposed to aerosols of {sup 239}PuO{sub 2} to re-establish desired {sup 239}Pu lung burdens of 26, 80 or 250 Bq every other month for 1 year (seven exposures). Other rats were exposed once at 84 or 450 days of age to achieve desired initial lung burdens of 30, 90, 280 or 850 Bq. The incidences of lung tumors were not significantly different (Fisher`s exact test; P > 0.05) in groups of rats with similar lifetime mean {alpha}-particle doses to the lungs of 0.90 {+-} 0.39 to 4.4 {+-} 1.8 ({+-} SD) Gy, whether exposed once or repeatedly. Among rats with mean {alpha}-particle doses of 12 {+-} 2.4 to 10 {+-} 2.1 Gy to the lungs after single or repeated exposures, respectively, the crude incidence of lung tumors was significantly less (Fisher`s exact test; P 0.05) or later than (Mantel-Cox statistic; P < 0.05) those for 84-day-old rats exposed once. The risk of lung tumors in rats per unit dose to the lungs was less in the rats exposed repeatedly than in those exposed once. It was concluded that {alpha}-particle doses to the lung of rats exposed repeatedly to aerosols of {sup 239}PuO{sub 2} were not more carcinogenic and possibly were less carcinogenic than the dose after a single inhalation exposure when rats with similar lifetime {alpha}-particle doses to the lungs were compared. The relative biological effectiveness in rats of the {alpha}-particle dose to the lungs from inhaled {sup 239}PuO{sub 2} relative to {beta}-particle doses to the lungs from inhaled {sup 144}CeO{sub 2} was 21 {+-} 3. 49 refs., 8 figs., 8 tabs.« less

Published

1995

6. Sequential Analysis of the Pathogenesis of Plutonium-Induced Pulmonary Neoplasms in the Rat: Morphology, Morphometry, and Cytokinetics

Author

William W. Carlton, R. A. Herbert, David L. Lundgren, Mark D. Hoover, I. Y. Chang, Alan H. Rebar, Fletcher F. Hahn, and Nancy A. Gillett

Subjects

Inhalation exposure, Pathology, medicine.medical_specialty, Radiation, Lung, Cell, Respiratory disease, Biophysics, Biology, medicine.disease, Epithelium, Pathogenesis, medicine.anatomical_structure, Pulmonary neoplasms, medicine, Radiology, Nuclear Medicine and imaging, Neoplastic transformation

Abstract

Light microscopy, morphometry, and cytokinetic techniques were used to examine the dynamics of plutonium-induced pulmonary proliferative lesions and neoplasms in rats at several intervals to 450 days after inhalation exposure to aerosols of 239PuO2. Maximal increases in alveolar and bronchiolar epithelial cell labeling were seen at 30 days; decreasing subsequently, the levels remained elevated above control indices. Focal proliferative epithelial lesions developed in the lung by 180 days and before the onset of pulmonary neoplasms. Pulmonary neoplasms, predominantly adenocarcinomas and squamous cell carcinomas, were initially observed at 308 days. The proliferative lesions progressed through a succession of morphological changes leading to the development of neoplasms. The volume density (fraction) and epithelial surface area of foci of alveolar epithelial hyperplasia increased progressively between 180 and 450 days after exposure, in contrast to the other proliferative lesions. We conclude that plutonium-induced pulmonary neoplasms develop through a succession of focal proliferative lesions that represent developmental preneoplastic lesions. Progressive increases in volume and epithelial surface area of the alveolar epithelial hyperplasias suggest that they may be more at risk for neoplastic transformation than the other histological types of proliferative foci.

Published

1993

7. Repeated Inhalation Exposure of Rats to Aerosols of 144 CeO 2 : II. Effects on Survival and Lung, Liver, and Skeletal Neoplasms

Author

D. L. Lundgren, Fletcher F. Hahn, and J. H. Diel

Subjects

Inhalation exposure, Pathology, medicine.medical_specialty, Radiation, Lung, Single exposure, Radiobiology, Inhalation, business.industry, Respiratory disease, Biophysics, Physiology, respiratory system, medicine.disease, medicine.anatomical_structure, medicine, Radiology, Nuclear Medicine and imaging, Lung cancer, business, Survival analysis

Abstract

Groups of 94-day-old F344/Crl rats were exposed repeatedly to aerosols of 144CeO2 to reestablish desired lung burdens of 1.9, 9.2, 46, or 230 kBq of 144Ce every 60 days for 1 year (seven exposures). Other 94-day-old rats were exposed once to achieve similar desired initial lung burdens of 144Ce. Older rats were exposed once to achieve desired initial lung burdens of 46 or 230 kBq when 500 days of age, the same age at which rats had the last of the repeated exposures. Control rats were either unexposed, sham-exposed once or repeatedly, or exposed once or repeatedly to stable CeO2. Approximately equal numbers of male and female rats were used. The median survival time and cumulative percentage survival curves were significantly decreased only in male and female rats exposed repeatedly to reestablish a 230-kBq lung burden and among the 94-day-old male rats exposed once to achieve a 230-kBq lung burden of 144Ce. The crude incidences of primary lung cancers (well described by a single Weibull distribution function), time to death with lung tumors, and risk of lung cancer per unit of beta-radiation dose to the lungs were correlated with the cumulative beta-radiation dose rather than the rate at which the dose was accumulated. A linear function, 70 (+/- 7.3) + -0.15 (+/- 0.056) x dose (+/- SD), adequately described the excess numbers of rats with lung cancers over a beta-radiation dose range to the lungs of 6.8 to 250 Gy for two groups of rats with the highest doses to the lungs after a single exposure and for two groups with the highest doses after repeated exposure.

Published

1992

8. Repeated Inhalation Exposure of Rats to Aerosols of 144 CeO 2 : I. Lung, Liver, and Skeletal Dosimetry

Author

D. L. Lundgren, M. B. Snipes, J. H. Diel, and Fletcher F. Hahn

Subjects

Inhalation exposure, Radiation, Lung, Radiobiology, Single exposure, Inhalation, business.industry, Biophysics, Physiology, respiratory system, medicine.anatomical_structure, Pharmacokinetics, medicine, Dosimetry, Radiology, Nuclear Medicine and imaging, Nuclear medicine, business, Dose rate

Abstract

To develop a better understanding of the influence of cumulative radiation dose and dose rate to the lungs on the biological responses to inhaled radionuclides, several studies are in progress at this institute in which laboratory animals have been exposed once or repeatedly to aerosols of insoluble particles containing 144Ce or 239Pu. In the study reported here, F344 rats were exposed repeatedly to aerosols of 144CeO2 beginning at 94 days of age to reestablish desired lung burdens of 1.9, 9.2, 46, or 230 kBq of 144Ce every 60 days for 1 year (seven exposures). Other 94-day-old rats were exposed once to achieve similar desired initial lung burdens of 144Ce. Older rats were exposed once to achieve desired initial lung burdens of 46 or 230 kBq when 500 days of age, the age of the repeatedly exposed rats when exposed for the last time. Control rats were either unexposed, sham-exposed once or repeatedly, or exposed once or repeatedly to stable CeO2. Approximately equal numbers of male and female rats were used. The cumulative beta-radiation doses to the lungs, liver, and skeleton of rats exposed repeatedly were similar to those of rats with similar total lung burdens of 144Ce from a single inhalation exposure. The average beta-radiation dose rate to the lungs of the rats exposed repeatedly was about one-fifth of that in rats with similar total lung burdens after a single exposure.

Published

1992

9. Effects of Protraction of the a Dose to the Lungs of Mice by Repeated Inhalation Exposure to Aerosols of 239 PuO 2

Author

Fletcher F. Hahn, Roger O. McClellan, David L. Lundgren, William C. Griffith, and Nancy A. Gillett

Subjects

Inhalation exposure, Pathology, medicine.medical_specialty, Radiation, Lung, Inhalation, Ratón, Chemistry, Respiratory disease, Biophysics, Occupational disease, Physiology, medicine.disease, Pathogenesis, medicine.anatomical_structure, medicine, Radiology, Nuclear Medicine and imaging, Respiratory system

Abstract

To determine the long-term biological effects of protracted ? irradiation of the lung, 84-day-old C57BL/6J mice were repeatedly exposed by inhalation to aerosols of 239PuO2 every other month for up to six exposures in 10 months to reestablish lung burdens of 20, 90, or 460 Bq. Other mice were exposed only once when either 84 or 460 days of age to achieve desired initial lung burdens of 20, 90, 460, or 2300 Bq. Suitable control groups were maintained. Groups of mice with similar cumulative α doses to the lung had 3.4 to 4.4 times greater incidence of pulmonary tumors (adenomas and adenocarcinomas) when the dose to the lung was protracted by the repeated inhalation exposures compared to mice that received a single inhalation exposure. Excess pulmonary tumors per unit dose to the lung were also greater in groups of repeatedly exposed mice compared to those exposed only once. Repeatedly exposed mice also died earlier with pulmonary tumors than did those exposed once. It appears that protraction of an α dose t...

Published

1987

10. Repeated Inhalation Exposure of Mice to 144 CeO 2 : I. Retention and Dosimetry

Author

J. H. Diel, Fletcher F. Hahn, David L. Lundgren, G. J. Newton, and R. O. Mcclellan

Subjects

Inhalation exposure, Alternative methods, Pathology, medicine.medical_specialty, Radiation, Lung, Inhalation, business.industry, Biophysics, Physiology, Beagle, Excretion, medicine.anatomical_structure, medicine, Dosimetry, Radiology, Nuclear Medicine and imaging, Respiratory system, business

Abstract

The potential exists for humans to be repeatedly or chronically exposed by inhalation to radionuclides in relatively insoluble forms; however, only limited experimental data are available on the effects of such exposures. Female mice were repeatedly exposed by inhalation at approximately 60-day intervals for 1 year to /sup 144/CeO/sub 2/ to reestablish lung burdens of either 0.2, 1.0, or 4.5 ..mu..Ci of /sup 144/Ce to determine the effect of repeated exposure on /sup 144/Ce retention and dosimetry. The long-term effective retention half-times of /sup 144/Ce in the lung, liver, and skeleton after the last repeated inhalation exposure were similar to those in mice exposed once by inhalation to /sup 144/CeO/sub 2/. A mathematical simulation model was developed as an alternative method of describing the pulmonary clearance of /sup 144/Ce after repeated exposures by inhalation to aerosols of /sup 144/CeO/sub 2/. The cumulative radiation doses to the lungs, livers, and skeletons of the repeatedly exposed mice were similar to those which would have occurred had the total lung burden been achieved by a single exposure. The repeatedly exposed mice also had temporal radiation dose patterns to the lung similar to beagle dogs exposed once.

Published

1980

11. Repeated Inhalation Exposure of Mice to 144 CeO 2 : II. Biologic Effects

Author

Fletcher F. Hahn, D. L. Lundgren, and R. O. McClellan

Subjects

Inhalation exposure, Radiation, Inhalation, Cumulative dose, Chemistry, business.industry, Radiochemistry, Biophysics, Radiology, Nuclear Medicine and imaging, Nuclear medicine, business, Dose rate, Absorbed Radiation Dose

Abstract

Groups of mice (C57Bl/6J strain) were repeatedly exposed by inhalation to aerosols of ${}^{144}{\rm CeO}{}_{2}$ at 60-day intervals for seven consecutive exposures to reestablish lung burdens of ${}^{144}{\rm Ce}$ of 0.2, 1.0, or 4.5 μCi. Additional groups of mice were exposed only once when 70 days old to achieve desired initial lung burdens of 0.2, 1.0, or 4.5 μCi. Control mice consisted of those exposed once or repeatedly to stable ${\rm CeO}_{2}$ , sham-exposed once or repeatedly, and unexposed mice. Protraction of the absorbed radiation dose by repeated inhalation exposures resulted in a sparing from the life-shortening effects of ${}^{144}{\rm Ce}$ pulmonary irradiation. The protraction of dose had no effect on the total number of lung tumors seen or their time of onset. The total incidence of lung tumors, benign and malignant, was correlated with cumulative dose, not dose rate.

Published

1980

12. Toxicity of 90 Y in Relatively Insoluble Fused Aluminosilicate Particles When Inhaled by Mice

Author

Roger O. McClellan, Fletcher F. Hahn, and David L. Lundgren

Subjects

medicine.medical_specialty, Radiation, Lung, Life span, Inhalation, business.industry, Chemistry, Biophysics, respiratory system, medicine.disease, Beagle, medicine.anatomical_structure, Endocrinology, Aluminosilicate, Internal medicine, Toxicity, medicine, Radiology, Nuclear Medicine and imaging, Respiratory system, Nuclear medicine, business, Pneumonitis

Abstract

LUNDGREN, D. L., HAHN, F. F., AND MCCLELLAN, R. O. Toxicity of 90Y in Relatively Insoluble Fused Aluminosilicate Particles When Inhaled by Mice. Radiat. Res. 88, 510-523 (1981). A life span study in mice of the toxicity of a short-half-lived (64.2 hr) #-emitting radionuclide, 90Y, inhaled in insoluble fused aluminosilicate particles was conducted. Mice were exposed to achieve initial lung burdens between 1 and 140 MCi of 90Y with each microcurie of 90Y deposited in lung delivering an absorbed lung dose of 150 rad. The cumulative survival rates of mice in groups with initial lung burdens of 1 to 10 eCi (1100 ? 380 rad to lungs) and 11 to 20 ACi (2300 ? 400 rad to lungs) were not significantly different from that of control mice. Initial lung burdens of more than 20 MCi (>3000 rad to lungs) resulted in radiation pneumonitis and a significant shortening of the life span. The incidences of all lung tumors and other lesions in mice exposed to 90Y in fused aluminosilicate particles were similar to those of the control mice, except pulmonary adenomas, found more frequently in groups of mice with initial lung burdens of 1 to 10 and 11 to 20 jACi. The early occurring biological effects observed in mice in this study were similar to those observed in beagle dogs exposed to 90Y in the same form.

Published

1981

13. Effect of Inhaled Yttrium-90 in Fused Clay Particles on the Pulmonary Clearance of Inhaled Staphylococcus aureus in Mice

Author

D. L. Lundgren, Roger O. McClellan, A. Sanchez, and Fletcher F. Hahn

Subjects

Inhalation exposure, Radiation, Lung, Inhalation, Chemistry, Biophysics, Pharmacology, medicine.disease_cause, Blood lymphocyte, Excretion, medicine.anatomical_structure, Staphylococcus aureus, Immunology, medicine, Radiology, Nuclear Medicine and imaging, Staphylococcus, Clearance rate

Abstract

The effect of /sup 90/Y inhaled in fused clay particles on the pulmonary clearance of inhaled Staphylococcus aurcus in mice was investigated to provide an improved understanding of the influence of localized irradiation from inhaled radionuclides on infectious processes. Pulmonary clearance of inhaled S. aurcus was suppressed in mice with initial lung burdens of 20 ..mu..Ci /sup 90/Y or greater at 2, 3, and 4 weeks after inhalation exposure to /sup 90/Y. Suppressed clearance rates were accompanied by radiation-induced lifespan shortening, retarded increases in average body wieght, suppression of blood lymphocyte count, and pulmonary lesions. Only equivocal suppression of bacterial clearance was observed in mice with initial lung burdens of less than 20 ..mu..Ci /sup 90/Y that were tested from 1 through 52 weeks after inhalation exposure. An initial lung burden of 1 ..mu..Ci /sup 90/Y was estimated to result in 400 rad to the lung delivered within 24 days after exposure.

Published

1976

14. Toxicity of Inhaled 144 CeO 2 in Mice

Author

Roger O. McClellan, Randi L. Thomas, D. L. Lundgren, A. Sanchez, and Fletcher F. Hahn

Subjects

Radiation, Animal science, Inhalation, Mean Survival Time, Toxicity, Biophysics, Physiology, Radiology, Nuclear Medicine and imaging, Biology, Radiation Pneumonitis, Clearance

Abstract

One hundred and seventy-eight mice, exposed by inhalation to an aerosol of ${}^{144}{\rm CeO}{}_{2}$ particles, were observed for their lifespan and their survival compared with those of 200 unexposed control mice. Approximately 91% of the initial whole-body burden of ${}^{144}{\rm Ce}$ was cleared within 6 days. The whole-body burden at 6 days was estimated to be equivalent to the initial lung burden (ILB) of which 32% was retained with an effective half-time of 7 days, 49% with a half-time of 28 days, and 19% with a half-time of 145 days. Cerium-144 retained in the lungs as a percentage of whole-body burden at death was determined through day 454 postinhalation exposure to be 84%. Mean survival time and cumulative percentage of survival were related to the estimated ILBs; ILBs of 4-5 μCi or greater resulted in 62% or more shortening of lifespan and ILBs of 3-4 μCi resulted in a 24% shortening of lifespan. The dose of beta radiation to the lung to the day of deat...

Published

1974

15. Suppression of the Pulmonary Clearance of Staphylococcus aureus in Mice That Had Inhaled Either 144 CeO 2 or 239 PuO 2

Author

D. L. Lundgren and F. F. Hahn

Subjects

Inhalation exposure, Radiation, Lung, Inhalation, business.industry, Chemistry, Radiation dose, Biophysics, Pharmacology, medicine.disease_cause, Excretion, medicine.anatomical_structure, Staphylococcus aureus, medicine, Radiology, Nuclear Medicine and imaging, Respiratory system, Nuclear medicine, business, Staphylococcus

Abstract

The rate of pulmonary clearance of inhaled Staphylococcus aureus in mice was determined at intervals after inhalation exposure to either /sup 144/CeO/sub 2/ or /sup 239/PuO/sub 2/. In mice with mean initial lung burdens between 0.6 and 4.7 ..mu..Ci /sup 144/Ce the pulmonary clearance of S. aureus was suppressed up to 12 weeks after inhalation of /sup 144/CeO/sub 2/. In mice with mean initial lung burdens between 1.3 and 29.0 ..mu..Ci /sup 239/Pu the pulmonary clearance of S. aureus was suppressed up to 26 weeks after inhalation of /sup 239/PuO/sub 2/. The suppressed pulmonary clearance of S. aureus appeared to correlate with the radiation dose rate to the lungs at the time of exposure to bacteria but not with the cumulative radiation dose to the lungs. The changes in bacterial clearance did not appear to be correlated with changes in body weight, hematological parameters, or radiation-induced histopathological changes. Altered bacterial clearance may be related to radiation damage to pulmonary macrophages. It was concluded that irradiation of the lung from radionuclides inhaled in relatively insoluble forms may result in increased bacterial invasion of the lungs.

Published

1979

16. Effects of Single and Repeated Inhalation Exposure of Syrian Hamsters to Aerosols of 144 CeO 2

Author

Fletcher F. Hahn, Roger O. McClellan, and David L. Lundgren

Subjects

Rare earth nuclei, Inhalation exposure, Chronic exposure, Radiation, Inhalation, Chemistry, Radiochemistry, Biophysics, Radiology, Nuclear Medicine and imaging, Respiratory system, Syrian hamsters

Abstract

Male Syrian hamsters (84 days old at the time of the initial exposure) were repeatedly exposed by inhalation at approximately 60-day intervals for 1 year (seven exposures) to aerosols of ${}^{144}{\rm CeO}{}_{2}$ to reestablish lung burdens of 0.4, 2.0, or 10 μCi of ${}^{144}{\rm Ce}$. Other hamsters were exposed once when either 84, 220, or 360 days old to achieve similar initial lung burdens. Primary lung tumors were observed in 7 of 197 hamsters repeatedly exposed to ${}^{144}{\rm CeO}{}_{2}$ that died between 177 and 685 days after the initial inhalation exposure. The cumulative absorbed β-radiation doses to the lungs of these hamsters were 14,000 to 50,000 rad. Primary lung tumors also were observed in 6 of 153 hamsters exposed once to ${}^{144}{\rm CeO}{}_{2}$ when 84 or 220 days old that died between 270 and 675 days after exposure. The cumulative β-radiation doses to the lungs of these hamsters were 6000 to 21,000 rad. Lung tumors were not observed in hamsters exposed when 360 days old or in contr...

Published

1982

17. Toxicity in the Dog of Inhaled 90 Y in Fused Clay Particles: Early Biological Effects

Author

Joe L. Mauderly, Rypka Ew, C. H. Hobbs, J.E. Barnes, D. L. Lundgren, T.L. Chiffelle, R.K. Jones, J.A. Pickrell, and Roger O. McClellan

Subjects

Radiation, Bronchiole, Lung, Inhalation, Chemistry, business.industry, Biophysics, respiratory system, Hyperplasia, medicine.disease, Beagle, Progressive weight loss, medicine.anatomical_structure, Toxicity, medicine, Radiology, Nuclear Medicine and imaging, Respiratory system, Nuclear medicine, business

Abstract

The toxicity of ${}^{90}{\rm Y}$ in the beagle is being investigated as part of a program to evaluate the biological effects of inhaled radionuclides. Thirtythree beagles were exposed to aerosols of ${}^{90}{\rm Y}$ in fused clay resulting in initial lung burdens (ILB) of 80-5200 μCi ${}^{90}{\rm Y}/{\rm kg}$ body weight. Cumulative beta radiation dose to the lungs to infinity or death ranged from 990 to 55,000 rads. Twenty-one dogs with ILBs from 670 to 5200 μCi/kg and beta radiation doses to lung ranging from 8400 to 55,000 rads died between 7.5 and 163 days postexposure. Clinical signs included progressive increase of respiratory rates, abnormal lung sounds on auscultation, progressive weight loss, lymphopenia, and eventual cyanosis. Principal pathological findings were pulmonary and pleural fibrosis, occlusive pulmonary vascular lesions, metaplasia and/or hyperplasia of terminal bronchiole and alveolar epithelium, right-heart dilatation an...

Published

1972