UMLS:C0242379 - FACTA Search

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Query: UMLS:C0242379 (lung cancer)
71,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the present study, lung samples from 126 autopsied cases were examined to determine the content of mineral fibers using analytical transmission electron microscopy (ATEM). The cases were divided into four groups (22 lungs of persons exposed to ambient environmental pollution, 32 cases of mesothelioma, 38 cases of primary lung cancer, and 34 asbestosis cases, 13 of these with additional pleural plaques). Fibers were counted, measured, and mineralogically identified using a combination of X-ray microanalysis and electron diffraction of the non-oriented fiber. Concentration of fibrous particles (defined as particles above 1 micron in length with roughly parallel long sides and an aspect ratio of 5:1 and greater) was calculated as fibers 10(6)/g dry lung weight. The concentration of chrysotile was found to be similar throughout the groups except for two cases in the asbestosis group with comparably high numbers of chrysotile. However, a remarkable difference for amphiboles could be observed between the groups. Asbestos bodies were mostly found in the asbestosis group. There was a rather good correlation between numbers of amphibole fibers and asbestos bodies, with an average ratio of 10:1. For comparison purposes between occupationally exposed/non-exposed individuals, a transition was found in the concentration range of 3-10(7) asbestos fibers/g dried lung weight.
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PMID:Electron microscopy analysis of mineral fibers in human lung tissue. 132 6

Asbestos-related diseases are dose-related. Among these, asbestosis has occurred only with the heavy exposures of the past, is a disappearing disease, and is of no concern with the very small exposures from building occupancy. A possibly increased incidence of lung cancer has been included in risk analysis, but probably is also related to high exposure in that both epidemiologic and experimental data suggest a link between the process of alveolar inflammation and fibrogenesis and carcinogenesis. The major concern has been mesothelioma in that it has occurred with much lower household and neighborhood exposure. Additionally, anxiety concerning buildings with ACM has been heightened by finding of friable asbestos in about 20% of public buildings, discovery of environmental asbestos fibers and asbestos bodies in autopsies, and demonstration of a linear relationship between exposure and lung cancer risk in occupational groups, inviting extrapolation to a much lower dose. Legislative and regulatory mandates, promotional activities of abatement companies, adverse court decisions placing the onus of repairs on asbestos manufacturers, and a "pandemic of mediagenic disease" all have contributed to panic among building owners, school boards, insurers, and others. In that there is neither clinical nor epidemiologic support for asbestos-related disease from building occupancy, risk estimates have been based on extrapolation from past experience with generally high-dose occupational exposure. However, only a few epidemiologic studies have contained quantitative estimates of exposure, and these have been measured in terms of all particles, with conversion to asbestos fibers uncertain and the fiber type and dimension largely unknown. To these uncertainties must be added the unproved assumption of a linear dose-response down to very low levels of exposure with no threshold. At the other end of the scale extrapolation has required measurements of present building exposure, and these have been revised downward as methods for collection and analysis have improved. Risk estimates in this country and abroad have assumed exposure to 0.001 f/mL, with indicated lifetime risks for cancer ranging from about 2 to 20 per 1 million students. However, these estimates have assumed mixed fiber exposure whereas most building exposure comes from chrysotile, which is much less toxic than the amphiboles.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Asbestos exposure in buildings. 151 51

Asbestos is a versatile fibrous mineral that can cause lung disease and death. Asbestosis, benign pleural disease, lung cancer, and mesothelioma can all result from inhaling asbestos. The history of disease and exposure risks are discussed. The difficult assessment of risk and the long latency period for development of disease demand evaluation and regular surveillance of asbestos-exposed workers.
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PMID:Asbestos-related lung disease. 160 90

Asbestos fibers and ferruginous bodies (FBs) in lung parenchyma, lung cancer tissues, pleural plaques, and pleural and peritoneal mesothelioma tissues from 13 North American insulation workers were analyzed and quantified using an analytical transmission electron microscope and a polarized microscope. Diseases from which these workers suffered included asbestosis, lung cancer, and mesothelioma. They had been occupationally exposed to materials containing chrysotile and amosite; their pathological diagnoses, occupational and cigarette smoking histories, and clinical summaries have been reported. Large numbers of FBs were found in the lungs and small numbers found in extrapulmonary sites. Most of the FBs had cores of amosite fibers. In all instances, lung parenchyma and lung cancer tissues showed chrysotile and amosite fibers in high concentrations (63.1 x 10(6) and 150.2 x 10(6) fibers/g dry tissue as mean values, respectively). Crocidolite fibers were seen in seven of the 13 cases, but in much smaller numbers. Other amphiboles were rarely found. In pleural plaques and in pleural and peritoneal mesothelioma tissues, amosite fibers were markedly fewer in number, whereas chrysotile fibers were seen in similar numbers as in the lungs. No significant differences in the size distribution of asbestos fibers were seen in the different sites. However, the mean widths of chrysotile fibers were thinner than those of amosite fibers. These results strongly suggest that translocation of inhaled asbestos fibers from the lung to other tissues, such as the pleura and the peritoneum, occurs frequently, and that chrysotile may be more actively translocated from the lung, compared to amosite or amphibole asbestos. The likelihood of translocation seems to be strongly related to the thinness of the fibers. Translocated chrysotile fibers may play an important role in the induction of either malignant mesothelioma and/or hyaline plaques, since the asbestos fibers detected in both these sites were mainly chrysotile.
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PMID:Analysis of asbestos fibers in lung parenchyma, pleural plaques, and mesothelioma tissues of North American insulation workers. 180 39

Reducing the incidence of diseases caused by exposure to radon, lead and asbestos is a major public health challenge. Radon gas, which usually enters a home through the foundation, can cause lung cancer. Exposure to lead through paint, auto emissions and other sources can cause neurologic deficits, as well as anemia, abnormal vitamin D metabolism, nephropathy, hypertension and reproductive abnormalities. Asbestos, which is used in a vast number of products, is primarily associated with parenchymal asbestosis, pleural fibrosis, mesothelioma and lung cancer. The family physician can play a pivotal role in providing information about hazardous exposure, sources of exposure, epidemiology and disease prevention.
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PMID:Overview of radon, lead and asbestos exposure. 195 Sep 82

Exposure to asbestos minerals has been associated with a wide variety of adverse health effects including lung cancer, pleural mesothelioma, and cancer of other organs. It was shown previously that asbestos samples collected from a local asbestos factory enhanced sister chromatid exchanges (SCEs) and chromosomal aberrations in vitro using human lymphocytes. In the present study, 22 workers from the same factory and 12 controls were further investigated. Controls were matched for age, sex, and socioeconomic state. The peripheral blood lymphocytes were cultured and harvested at 48 hours for studies of chromosomal aberrations and at 72 hours for SCE frequency determinations. Asbestos workers had a raised mean SCE rate and increased numbers of chromosomal aberrations compared with a control population. Most of the chromosomal aberrations were chromatid gap and break types.
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PMID:Frequency of sister chromatid exchange and chromosomal aberrations in asbestos cement workers. 199 3

Asbestos is a mineral of special technical properties and therefore used in many products all over the world. The inhalation of asbestos causes chronic inflammation of lung--the asbestosis--and pleura--pleuraplaques and pleuritis--and is responsible for mesothelioma and lung cancer. Under normal conditions the diagnosis asbestosis is easy because of the typical x-ray findings and the history of intensive exposure of asbestos. In rare conditions the history of exposure is uncertain and the diagnosis might be difficult. The expected anuity depends on the loss of lung-function. First we find a restrictive ventilatory disorder i.e. a reduction in VC and compliance. Later after progress of the disease the gasexchange is impaired. In case of mesothelioma or lungcancer the person is generally expected to be unable to work.
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PMID:[Expert assessment of asbestos-induced lung damage]. 213 90

Asbestos is a commercial term for a group of fibrous minerals often associated with the development of pulmonary interstitial fibrosis (asbestosis), lung cancer, and malignant mesothelioma in occupationally exposed individuals. The pathogenicity of different forms of asbestos varies--long, thin amphibole fibers are most pathogenic, particularly in the induction of mesothelioma. Available data do not support the concept that low-level exposure to asbestos is a health hazard in buildings and schools. The concentration of asbestos fibers in air, type of asbestos, and size of fibers must be considered in evaluation of potential health risks.
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PMID:Asbestos: scientific developments and implications for public policy. 216 Jul 30

A 76 year-old male with simultaneous double cancer (lung and stomach cancer) was reported. The patient was followed up for pleural plaque on chest X-ray from 1986. The diagnosis of stomach cancer was decided by biopsy and lung cancer by operation at the same time in 1989. The histology of these two tumors were different (stomach: well differentiated tubular adenocarcinoma, lung: moderately differentiated papillary adenocarcinoma) and the stomach cancer was early stage and lung cancer was stage IIIa. He had a definite history of asbestos exposure in Japanese naval shipyard. Pleural plaque with calcification was found on chest X-ray and numerous asbestos bodies were detected in the resected lung tissue. Almost all asbestos fibers examined by an X-ray analyzer with scanning microscopy were chrysotile or tremolite. Furthermore, he was a heavy smoker (B.I., 1650). These tumors developed after 59 years of the first asbestos exposure. Asbestos exposure and smoking are considered to be important pathogenesis factors related to these two tumors.
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PMID:[A case of simultaneous double cancer (lung and stomach cancer) related to asbestos exposure]. 223 77

Asbestos exposure induces lung fibrosis, i.e. asbestosis, and furthermore, pathological changes of pleura, i.e. asbestos pleurisy of pleural plaque. Generally, asbestosis is induced by massive exposure to asbestos and pleural changes are induced by low dose exposure to asbestos. The most important diseases which are induced by asbestos exposure are malignancies, especially malignant mesothelioma and lung cancer. Two cases, one malignant mesothelioma, the other lung cancer with asbestosis induced by asbestos exposure received almost the same dose of asbestos, as estimated from the period of asbestos exposure and occupational history and the same kind of asbestos (crocidolite) and had a smoking history. We do not know which elements may induce malignancies under asbestos exposure. Recently, some reports described that asbestos mediated the transformation of genes and this action induced malignancies. We should extend our study to the gene problem in cases of malignant mesothelioma and lung cancer induced by asbestos exposure.
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PMID:[Respiratory malignancies induced by asbestos exposure and evaluation of cases with typical pleural malignant mesothelioma and lung cancer with asbestosis]. 224 58

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