Biopersistence of cerium in the human respiratory tract and ultrastructural findings

For diagnostic purposes, mineralogical analysis was performed in bronchoalveolar la-vage fluid and lung tissue from a 58-year-old patient previously exposed to asbestos and rare earth dusts. No significant retention of asbestos was demonstrated in lung tissue by light microscopy (asbestos bodies) or transmission electron microscopy analysis (un-coated fibers). Particles containing rare earth (cerium, lanthanum) and phosphorus were identified in alveolar macrophages in bronchoalveolar lavage fluid, and cerium-containing particles accounted for 70% of particles observed in the lung tissue. Ultrastructural analysis of lung tissue revealed the presence of particles containing cerium and phosphorus in interstitial macrophages and elastic fibers. These results suggest that rare earth is metabolized and should be considered as biopersistent in the human respiratory tract, since occupational inquiries revealed that exposure to cerium oxide abrasive powder had ceased at least 15 years earlier.     

Non-fibrous dust load and smoking in dental technicians: a study using bronchoalveolar lavage.

A study was conducted with transmission electron microscopy to find whether bronchoalveolar lavage could be used to identify subjects with occupational exposure to mineral particles. Non-fibrous mineral particles in bronchoalveolar lavage (BAL) fluid from 46 dental technicians and 41 white collar controls with lung diseases but free from occupational exposure to dusts were analysed. The total particle concentration in BAL fluid was significantly higher in dental technicians than in controls (12.18 x 10(5) particles/ml of BAL fluid, v 2.03 x 10(5) particles/ml, p < 0.001). Dental technicians had significantly more crystalline silica, aluminium, and alloys containing nickel and chromium. There was a non-significant twofold increase of total particle concentration in the lungs of dental technicians who were smokers compared with non-smokers. The results strongly support the use of BAL fluid analysis to assess dust accumulation in workers in heavily exposed occupations such as dental technicians. This is a valid method to evaluate occupational exposure to non-fibrous mineral particles, and may be useful to determine the occupational aetiology of some respiratory diseases.     

Retention of Asbestos Bodies in the Lungs of Welders

Examination of asbestos bodies (AB) retained in the lungs is a useful way of assessing past occupational exposure to this material. AB retention has been extensively studied in workers directly exposed to asbestos, but less so in those end users, such as welders, who use asbestos-containing products. We therefore retrospectively studied AB retention in 211 welders, for whom biological testing procedures had been requested by a chest physician, between 1988 and 1991. Optical microscopy of AB was performed on samples of sputum (40 subjects), bronchoalveolar lavage fluid (BAL) (147 subjects), and lung tissue obtained after thoracotomy (38 subjects). Information on previous jobs and exposure was obtained using a questionnaire (the mean duration of welding activities was 16.6 years). Eighty-two subjects (38.9%) had elevated lung retention of AB in all the samples studied. Significant AB retention occurred in only 30% of sputum samples, but in 40.1% of BAL samples and 39.5% of lung tissue samples. The duration of welding activities correlated with the density of AB in BAL or lung tissue (r = 0.31, p < 0.01 and r = 0.49, p < 0.05, respectively). On the basis of the questionnaire, only two of the welders with significant AB retention had other occupational exposure to asbestos. Our findings suggest that welding activities may increase lung retention of AB, and consequently might produce higher risks of fibrotic and/or malignant pulmonary diseases. These potential risks need to be brought to the attention of doctors; a longitudinal follow-up may also be warranted in such populations, even after individuals have ceased their welding jobs.     

Pleural mesothelioma and exposure to asbestos: evaluation from work histories and analysis of asbestos bodies in bronchoalveolar lavage fluid or lung tissue in 131 patients.

Exposure to asbestos was evaluated in 131 patients with pleural malignant mesothelioma in the Paris area between 1986 and 1992 using data from a detailed specific questionnaire and light microscopy analysis of the retention of asbestos bodies in bronchoalveolar lavage fluid or lung tissue. Probable or definite exposure to significant levels of asbestos dust was identified in only 48 (36.6%) subjects, and significant asbestos body counts (above 1 asbestos body/ml in bronchoalveolar lavage fluid or 1000 asbestos bodies/g of dry lung tissue) were found in only 45 (34.3%) subjects. Overall 50 subjects had experienced exposure to only low levels of asbestos or no exposure at all and showed no significant retention of asbestos bodies in the biological sample analysed. Previous studies have shown that light microscopy may be useful in the identification of subjects with previous exposure to asbestos. In this study, apart from cases with obvious exposure to asbestos, a large group of subjects seemed to have a history of exposure or lung retention of asbestos bodies suggestive of very low levels of cumulative exposure, similar to those described in the general population.     

A striking deposition of mineral particles in the lungs of a farmer: a case report

The object of this study was to analyze mineral particles in lung tissue from a farmer who underwent lobectomy due to a lung tumor and relate these analytical findings to occupational exposure and histopathological and clinical diagnoses. Despite no clear evidence of previous occupational dust exposure, heavy deposits of birefringent particles and slight pulmonary fibrosis were found during histopathological examination. Extracts from the lung tissue were analyzed by electron microscopy and X-ray microanalysis for mineral particles. The major components of the dust were identified as mica, talc, and silica. Minor components included asbestos fibers and rutile fibers. Some of these fibers were coated by ferroproteins. Mica, quartz, feldspars (plagioclase), and rutile fibers were found in the soil from the farmer's potato storehouse. Based on these findings it is assumed that the slight pulmonary fibrosis is probably caused by the different mineral particles deposited.     

Asbestos fibres in bronchoalveolar lavage fluid from asbestos workers: examination by electron microscopy

The uncoated and coated fibre load in bronchoalveolar lavage (BAL) fluid was assessed using light microscopy, scanning electron microscopy, and x ray microanalysis in 15 subjects with previous, unprotected exposure to asbestos, including three with clinical and radiological evidence of asbestosis, and in 13 urban dwelling control subjects with no known occupational exposure to asbestos. The mean ferruginous body count per ml BAL fluid in asbestos exposed subjects as determined by light microscopy was 52 (range 0-333). No ferruginous bodies were detected in control subjects. The mean fibre count per ml BAL fluid in asbestos exposed subjects as determined by electron microscopy was 793 (133-3700), significantly greater than 239 (44-544) in controls (p less than 0.05). Electron microscopic counts correlated with duration of previous exposure to asbestos (r = 0.47, p less than 0.05) and with percentage neutrophil counts (r = 0.53, p less than 0.025). There was no relation between electron microscopic fibre counts and light microscopic ferruginous body counts. In 11 asbestos exposed cases x ray microanalysis confirmed the presence of asbestos and in six the asbestos fibre type was clearly identified. Of five subjects showing no asbestos bodies by light microscopy, all showed fibres by electron microscopy, and in three cases the presence of asbestos was confirmed by microanalysis. Among control subjects, fibres were either large organic fibres or smaller particles which microanalysis showed were not asbestos. In only one control case were a few fibres identified which were confirmed as asbestos fibres on microanalysis. Electron microscopic examination of BAL fluid may confirm past exposure to asbestos and probably gives a crude quantitative estimate of asbestos load.     

Asbestos fibres in bronchoalveolar lavage fluid from asbestos workers: examination by electron microscopy.

The uncoated and coated fibre load in bronchoalveolar lavage (BAL) fluid was assessed using light microscopy, scanning electron microscopy, and x ray microanalysis in 15 subjects with previous, unprotected exposure to asbestos, including three with clinical and radiological evidence of asbestosis, and in 13 urban dwelling control subjects with no known occupational exposure to asbestos. The mean ferruginous body count per ml BAL fluid in asbestos exposed subjects as determined by light microscopy was 52 (range 0-333). No ferruginous bodies were detected in control subjects. The mean fibre count per ml BAL fluid in asbestos exposed subjects as determined by electron microscopy was 793 (133-3700), significantly greater than 239 (44-544) in controls (p less than 0.05). Electron microscopic counts correlated with duration of previous exposure to asbestos (r = 0.47, p less than 0.05) and with percentage neutrophil counts (r = 0.53, p less than 0.025). There was no relation between electron microscopic fibre counts and light microscopic ferruginous body counts. In 11 asbestos exposed cases x ray microanalysis confirmed the presence of asbestos and in six the asbestos fibre type was clearly identified. Of five subjects showing no asbestos bodies by light microscopy, all showed fibres by electron microscopy, and in three cases the presence of asbestos was confirmed by microanalysis. Among control subjects, fibres were either large organic fibres or smaller particles which microanalysis showed were not asbestos. In only one control case were a few fibres identified which were confirmed as asbestos fibres on microanalysis. Electron microscopic examination of BAL fluid may confirm past exposure to asbestos and probably gives a crude quantitative estimate of asbestos load.     

The presence of asbestos bodies in induced sputum as an indicator of asbestos exposure

BACKGROUND: Very few references on the usability of presence of asbestos bodies (AB) in induced sputum as an indicator of asbestos exposure are to be found in the scientific literature. OBJECTIVES: The purpose of this study was to prove whether the presence of AB in induced sputum is a valid assessor of asbestos exposure. METHOD: This was achieved by comparing the above-mentioned method with the search for AB in bronchoalveolar lavage (BAL) fluid and repeating the trials over time in order to study the reproducibility of the results. Results: There was good agreement of results for the presence/absence of AB in induced sputum and in BAL among subjects who were environmentally exposed and those with 'a medium-high risk occupational exposure (100%), and poor agreement (66%) among subjects with a low risk occupational exposure. Agreement of results regarding the amount of particles per test was low. The method showed a sufficient reproducibility level (Cohen K=0.5). CONCLUSION: Although the presence of asbestos bodies in induced sputum cannot replace bronchoalveolar lavage, it can however be used as a screening test for selecting subjects who should undergo BAL.     

Mineral particles, mineral fibers, and lung cancer

The total fibrous and nonfibrous mineral content of the lung has been analyzed in a series of 14 men with lung cancer but no history of occupational dust exposure, and in a series of 14 control men matched for age, smoking history, and general occupational class. The lung cancer patients had an average of 525 +/- 369 X 10(6) exogenous mineral particles and 17.4 +/- 19.6 X 10(6) exogenous mineral fibers/g dry lung, while the controls had averages of 261 +/- 175 mineral particles and 4.7 +/- 3.2 X 10(6) mineral fibers/g dry lung. These differences are statistically significant for both particles and fibers. Kaolinite, talc, mica, feldspars, and crystalline silica comprised the majority of particles of both groups. Approximately 90% of the particles were smaller than 2 micron in diameter and approximately 60% smaller than 1 micron; the mean particle size in the cancer group was 1.1 +/- 0.2 micron and in the control group 1.3 +/- 0.2 micron. In both groups, patients who had smoked more than 35 pack years had greater numbers of particles than patients who had smoked less than 35 pack years. It is concluded that, in this study, lungs from patients with lung cancer had statistically greater numbers of mineral particles and fibers than lungs from controls, and that smoking influences total long-term retention of particles from all sources.     

Reductions in lymphocyte subpopulations after repeated exposure to 1.5 ppm nitrogen dioxide.

In this investigation the effects of repeated exposure to 1.5 ppm NO2 on immune competent cells in bronchoalveolar lavage (BAL) fluid was studied. Special attention was focused on effects on lymphocyte subpopulations. Eight healthy subjects were exposed to 1.5 ppm NO2 every second day on six occasions. Bronchoalveolar lavage fluid was collected at least three weeks before the exposure series as reference and 24 hours after the last exposure. The results obtained were analysed using a non-parametric test for paired observations, with each subject as his own control. Significant reductions were found in the total number and percentage of T cytotoxic-suppressor cells in BAL fluid; this caused an increase in the ratio of T helper-inducer: cytotoxic-suppressor cells. The total number of natural killer cells in the BAL fluid was also reduced. The numbers of all other cell types were unchanged after exposure. No reduction of phagocytosis of opsonised yeast particles by alveolar macrophages in vitro was detected. It is concluded that repeated short term exposures to 1.5 ppm NO2, a moderate occupational concentration, induces significant effects on immune competent bronchoalveolar lymphocytes. This indicates that previous findings of changes in the lymphoid immune system induced by NO2 in animals may well be applicable to humans.     

Reductions in lymphocyte subpopulations after repeated exposure to 1.5 ppm nitrogen dioxide.

In this investigation the effects of repeated exposure to 1.5 ppm NO2 on immune competent cells in bronchoalveolar lavage (BAL) fluid was studied. Special attention was focused on effects on lymphocyte subpopulations. Eight healthy subjects were exposed to 1.5 ppm NO2 every second day on six occasions. Bronchoalveolar lavage fluid was collected at least three weeks before the exposure series as reference and 24 hours after the last exposure. The results obtained were analysed using a non-parametric test for paired observations, with each subject as his own control. Significant reductions were found in the total number and percentage of T cytotoxic-suppressor cells in BAL fluid; this caused an increase in the ratio of T helper-inducer: cytotoxic-suppressor cells. The total number of natural killer cells in the BAL fluid was also reduced. The numbers of all other cell types were unchanged after exposure. No reduction of phagocytosis of opsonised yeast particles by alveolar macrophages in vitro was detected. It is concluded that repeated short term exposures to 1.5 ppm NO2, a moderate occupational concentration, induces significant effects on immune competent bronchoalveolar lymphocytes. This indicates that previous findings of changes in the lymphoid immune system induced by NO2 in animals may well be applicable to humans.     

Asbestos exposure among finnish lung cancer patients: Occupational history and fiber concentration in lung tissue

In a series of 65 surgically treated lung cancer patients, past exposure to asbestos was evaluated by personal interviews, and by scanning electron microscopy analyses of the mineral fibers in lung tissue. Lung tissue samples of 17 autopsied male office workers were analyzed as referents. According to occupational history, 37% of the lung cancer patients had definite or probable, 31% possible, and 32% unlikely exposure to asbestos. The fiber concentration in the lung tissue ranged from <0.1 to 65 million fibers per gram dry tissue in the lung cancer group, and from <0.1 to 0.8 million fibers per gram dry tissue in the reference group. In 26% of the lung cancer patients, but in none of the referents, the fiber concentration exceeded 1 million fibers per gram dry tissue. Most of the exposed patients had been employed in various construction jobs, and valuable information about the exposure levels could be obtained by the mineral fiber analyses. In general, there was a good accord between the exposure categorization and the fiber burden measured in the lung. © 1993 Wiley-Liss, Inc.     

Changes induced by exposure of the human lung to glass fiber-reinforced plastic

The inhalation of glass dusts mixed in resin, generally known as glass fiber-reinforced plastic (GRP), represents a little-studied occupational hazard. The few studies performed have highlighted nonspecific lung disorders in animals and in humans. In the present study we evaluated the alteration of the respiratory system and the pathogenic mechanisms causing the changes in a group of working men employed in different GRP processing operations and exposed to production dusts. The study was conducted on a sample of 29 male subjects whose mean age was 37 years and mean length of service 11 years. All of the subjects were submitted to a clinical check-up, basic tests, and bronchoalveolar lavage (BAL); microscopic studies and biochemical analysis were performed on the BAL fluid. Tests of respiratory function showed a large number of obstructive syndromes; scanning electron microscopy highlighted qualitative and quantitative alterations of the alveolar macrophages; and transmission electron microscopy revealed the presence of electron-dense cytoplasmatic inclusions indicating intense and active phlogosis (external inflammation). Biochemical analyses highlighted an increase in protein content associated with alterations of the lung oxidant/antioxidant homeostasis. Inhalation of GRP, independent of environmental concentration, causes alterations of the cellular and humoral components of pulmonary interstitium; these alterations are identified microscopically as acute alveolitis.     

Electron microscopic microanalysis of bronchoalveolar lavage: a way to identify exposure to silica and silicate dust.

OBJECTIVES: The diagnostic implications of finding non-fibrous inorganic particles in bronchoalveolar lavage (BAL) fluid has not been fully assessed. The aim of this study has been to measure the silica and non-fibrous silicates in BAL fluid from populations with different exposures to inorganic dust, and to find whether such measurement is useful for diagnostic purposes. MATERIALS AND METHODS: BAL samples from 19 subjects with only environmental exposure to inorganic dust (group A, mean (SD) age 50.7 (15.2)), 23 subjects with normal chest x ray films exposed to silica or silicates at work (group B, mean (SD) age 52.0 (12.4)), and 15 subjects with a previous diagnosis of silicosis (group C, mean (SD) age 68.0 (6.5)) were studied. Absolute and relative cell counts were found, and the samples were prepared for microanalysis by electron microscopy (EM). Firstly, semiquantitative x ray microanalysis was performed to find the level of silicon (Si) (peak/background Si) and this was followed by microanalysis of individual particles by EM. Variables related to the level of Si detected were assessed with multivariate analysis. RESULTS: Detected levels were higher in group B (2.09, 95% confidence interval (95% CI) 1.56 to 2.82) and C (1.50, 95% CI 1.07 to 2.12) than in group A (0.87, 95% CI 0.66 to 1.16) (P < 0.05, Dunett t test). A first multivariate analysis showed that exposure to silica or silicates was the only determinant of the level of Si expressed as log peak/background Si, when adjusted for age, sex, smoking habit, and cell count. A second multivariate analysis with microanalysis of individual particles as an independent variable showed the silica count to be the main predictor of detected concentration of Si. Silica and non-aluminium silicates together explain 55.5% (R2) of the variation in detected levels of Si. CONCLUSIONS: Detected levels of Si in BAL fluid depend on silica count and are higher in subjects with exposure to inorganic dust at work, but will not discriminate between exposed subjects with and without silicosis. Because semiquantitative x ray microanalysis does not accurately define exposure to non-silica inorganic particles, this measurement must be followed by EM microanalysis of individual particles in most cases, especially when exposure to silicates or metal dust is suspected.     

Pneumoconiosis in a female worker exposed to a primer used in the production of non-stick pans: clinical case

The primary prevention programmes carried out in the 1950's and 1960's in industrialized countries brought about a significant reduction in the incidence of pneumoconiosis. Nevertheless, it is still possible to diagnose new cases, perhaps in relatively unusual working activities. OBJECTIVE: To describe a case of q 2/2 pneumoconiosis associated with mixed powder containing less than 1% quartz that occurred in a 37 year-old female worker, who had been previously employed (1987-1994) in manually spraying a primer solution on the bottom of non-stick aluminium pans. METHODS: The manufacturing firm supplied details of the composition of the primer. The physiological, pathological and occupational history was obtained for the worker, who also underwent: respiratory functional exploration, chest radiographs and HRCT of the thorax, fibrobronchoscopy, with transbronchial biopsy and BAL collection. The lung tissue sample was examined via light microscopy and scanning electron microscope analysis. RESULTS: The primer contained 6.8% talc, free from asbestos or silica, 3.8% iron oxides and 0.6% bentonite which, in turn, contained less than 1% crystalline silica. The job was performed in a semi-confined environment, with an inefficient aspiration system. The worker had never complained of respiratory symptoms. Radiographs and HRCT showed widespread micronodulation. Light microscopy of pulmonary tissue showed multinucleate giant cell granulomas with intracytoplasmatic inclusions. Scanning electron microscope analysis revealed that these consisted of agglomerated particles, microanalysis of which showed the presence of a silicate. CONCLUSIONS: Particular jobs performed up to few years ago in Italy in a semi-confined environment can still involve exposure to doses of mineral dusts such as to cause pneumoconiosis. This is the first case of mixed powder pneumoconiosis described in a worker employed in the production of non-stick aluminium pans.     

A mathematical model of particle retention in the air-spaces of human lungs.

Knowledge of the total and regional lung retention of particles inhaled continuously by man over long periods can be useful in understanding the potential role of inhaled particles in the pathogenesis of lung diseases. Owing to practical and ethical considerations, however, little or no experimental information exists. A mathematical model of particle retention simulating environmental and occupational exposures has therefore been developed that takes into account particle deposition, tracheobronchial clearance, and two phases of alveolar clearance in the Weibel A anatomical lung model. The derived equations of retention kinetics predict retention of particles as a function of exposure time. For a continuous exposure (simulating environmental conditions) to 4 microns particles, the model predicts that retained particles approach an equilibrium between deposited and cleared particles with the 95% level being reached in 293 days. For an intermittent exposure (simulating occupational conditions) equilibrium is approached in five years. The whole lung burden of particles is predicted to be 9% of the total mass that entered the lung after a one-year environmental exposure and 1.5% after a 25-year occupational exposure. The equilibrium surface concentration and integrated dose of particles per airway generation predict enhanced risk to the pathogenic effects of inhaled particles in the large airways and respiratory bronchioles.     

Pulmonary clearance of fibrous and angular SiC particulates in the sheep model of pneumoconiosis.

Both angular and fibrous SiC (carborundum) particulates can be emitted by SiC production operations. Carborundum pneumoconiosis is now recognized as an occupational lung disease with specific pathological features. These were previously reproduced in the sheep model of pneumoconiosis with fibrous SiC but not with angular SiC. To further document this question, the pulmonary retention in the sheep of the two morphological types was studied. Animals were injected in the tracheal lobe with equal mass (100 mg) of particulates prepared from SiC materials taken in the field. Particles were measured by analytical transmission electron microscopy in samples of bronchoalveolar lavage fluids (BAL) obtained at months 2, 4, 6 and 8 after the injection. They were also measured in samples of lung parenchyma obtained at month 8. Measurements in BAL and in lung samples both indicated a much lower retention for fibrous than for angular SiC. The retention rate in lung parenchyma at month 8 was 30 times lower for fibrous SiC. The half-life of decrease of concentrations was 3.4 times shorter for fibrous SiC. Other data in the literature support the notion that fine fibres are cleared more effectively than coarser angular particles.     

Particulate concentrations in pulmonary alveolar proteinosis.

Quantitative birefringent particle counts per 10 high-power fields in lung tissue were correlated with age, sex, and occupational exposure in 37 cases of pulmonary alveolar proteinosis. Counts were significantly higher in pulmonary alveolar proteinosis cases in both regions of alveolar proteinosis (47 +/- 11) and perivascular and peribronchiolar areas (dust retention areas) (275 +/- 65) than in 13 controls (5 +/- 3 and 79 +/- 23, respectively). Of a total of 8619 particles, 4817 were less than 1 micron, and 3771 were 1 to 10 microns in diameter. Fifty-nine percent were round, 19% fibrous, and 22% irregular. When analyzed individually, 20 of 37 cases (78%) had alveolar particle counts significantly higher than controls, and 10 of 26 cases had dust-retention area counts greater than controls (P less than 0.050). Known or possible occupational exposure was ascertained in 13 cases. In the remaining 24 cases insufficient occupational information was available. The mean age of the pulmonary alveolar proteinosis patients was 33 +/- 4 years, and of the controls, 40 +/- 7 years, and there was a male-to-female ratio of approximately 3:1. We propose that many cases of pulmonary alveolar proteinosis will ultimately be shown to be associated with environmental exposures to fine dusts or fumes.     

Relative chronic effects of different occupational dusts on respiratory indices and health of workers in three Ethiopian factories

The respiratory effects of dusts in different sections of yarn, cement, and cigarette factories were studied in 211 nonsmoking male and female workers aged 21–57 years. The controls used were 211 healthy nonsmoking and nonexposed male and female subjects aged 20–57 years from the general population. Forced vital capacity (FVC), forced expiratory volume in 1 sec (FEV₁), FEV₁/FVC ratio, forced expiratory flow (FEF_{200–1,200 ml}), forced mid-expiratory flow (FMF_25–75%) and peak expiratory flow rate (PEFR) were recorded in all subjects with and without respiratory symptoms. Taking exposures to all dusts of different concentrations together, it was found that the frequency of respiratory illness was greater among exposed workers (40.5% in males, 36% in females) than it was among controls (21.6% in males,18% in females). In exposed subjects, the symptom prevalence was only 4.5% higher in males than in females.The mean lung function indices, including FEV₁, FEV_1%, FEF_{200–1,200 ml}, FMF_25–75%, and PEFR, in subjects exposed to all dusts in general decreased markedly, with dust concentration being more important than duration of exposure, and FMF being affected slightly more consistently. About 38.4% of the dust-exposed subjects developed corresponding respiratory illnesses including chronic cough (24.7%), chronic bronchitis (21.8%) and bronchial asthma (24.2%). The respective control values were 9.0%, 9.5%, and 8.5%. Exposure to different occupational dusts resulted in the development of respiratory illness with different rates of prevalence. The effects of exposure to cotton and cement dusts on respiratory health of exposed subjects were relatively more significant (p < 0.001) than that of exposure to tobacco dust (p < 0.05). Am. J. Ind. Med. 34:373–380, 1998. © 1998 Wiley-Liss, Inc.     

Analysis of ferruginous bodies in bronchoalveolar lavage from foundry workers.

Classical ferruginous bodies in tissue samples are considered to be markers of past exposure to asbestos. Recent studies have shown that the presence of ferruginous bodies in bronchoalveolar lavage (BAL) fluid correlates with past exposure to asbestos and offers a more sensitive reference than occupational history. Lavage samples from five subjects who had worked in foundries were evaluated by light microscopy for the presence of ferruginous bodies and by transmission electron microscopy for both characterisation of the uncoated fibre burden and analysis of the cores of the ferruginous bodies. All samples at lower magnification (light microscopy (200 x)) contained ferruginous bodies that were externally consistent with asbestos bodies. At higher magnification (400 x), a separate population from this group could be identified by the presence of a thin black ribbon. Transmission electron microscopy of the core materials of ferruginous bodies and comparable uncoated particulates supported the reliability of higher magnification light microscopy for distinguishing most of those non-asbestos cores; however, a population of transparent non-asbestos cored ferruginous bodies were also shown to exist.