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Query: UMLS:C0032273 (
pneumoconiosis
)
1,578
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The uptake of gallium 67 (67Ga) into cells is postulated to be through
transferrin
receptors (TFR) of 67Ga combined with
transferrin
. We studied the relationship between gallium 67 citrate scanning (67Ga scan) and immunohistochemical TFR expression in lungs of nine patients with lung cancer and eight patients with diffuse interstitial lung diseases. We found that lung cancer tissues of positive 67Ga scan expressed TFR, but those of a negative scan did not. In all of the five patients with idiopathic pulmonary fibrosis (IPF), TFR were expressed on the membrane of alveolar macrophages that formed clusters. However, TFR were not expressed in lymphocytes, neutrophils, type 2 alveolar epithelial cells, and endothelial cells. In two patients with sarcoidosis and a patient with
pneumoconiosis
, TFR were expressed positively only on the membrane of foamy alveolar macrophages and epithelioid cells of granuloma. These findings suggest that 67Ga-citrate initially combines with
transferrin
in the blood and then the complex is incorporated into cells through TFR. Therefore, 67Ga scan could be positive when cells have TFR and one should be able to observe cancer cells, clusters of alveolar macrophages, and epithelioid cells through the imaging of 67Ga scan in lung cancer and diffuse interstitial lung diseases.
...
PMID:Relationship between gallium 67 citrate scanning and transferrin receptor expression in lung diseases. 164 43
Silicates causing
pneumoconiosis
function as Fenton catalysts to generate hydroxyl radicals (.OH) when incubated with hydrogen peroxide and a reducing substance. In contrast, silicates which do not cause
pneumoconiosis
demonstrate no Fenton activity. Catalytic activity is decreased by pretreatment of silicates with the iron chelators deferoxamine or
transferrin
. Hemolysis from silicates is decreased by interventions which remove superoxide anion or hydrogen peroxide from the medium, or by pretreatment of dusts with iron chelators. Thus, asbestos and nonfibrous silicates may cause
pneumoconiosis
through a common oxidant mechanism by catalyzing production of toxic .OH radicals in the lung.
...
PMID:Dusts causing pneumoconiosis generate .OH and produce hemolysis by acting as Fenton catalysts. 253 62
Electrophoresis and isoelectric focusing assessed distribution of phenotypic and gene frequency for 7 highly polymorphic proteins in 163 patients having occupational chronic bronchitis,
pneumoconiosis
and bronchial asthma. Phenotypic frequency studies, when compared to the reference group, revealed significant differences in the following parameters: proteinase inhibitor, 3rd component of complement,
transferrin
, serum blood-group specific component, phosphoglucomutase of RBC. Gene frequency studies revealed the significant differences in 3rd component of complement (C3),
transferrin
(Tf) and phosphoglucomutase of RBC (PGM): the patients demonstrated increased amounts of C3 F, Tf C3 and PGM 2b alleles. The results could be used for individual forecasting the risk of occupational diseases and for choosing the individual prophylactics.
...
PMID:[On phenotype and genotype features of serum and erythrocyte proteins in occupation-related bronchopulmonary pathology]. 944 Sep 42
Welders are at risk of being exposed to high concentrations of welding fumes and developing
pneumoconiosis
or other welding-fume exposure-related diseases. Among such diseases, manganism resulting from welding-fume exposure remains a controversial issue, as although the movement of manganese into specific brain regions has been established, the similar movement of manganese presented with other metals, such as welding fumes, has not been clearly demonstrated as being similar to that of manganese alone. Meanwhile, the competition between Mn and iron for iron transporters, such as
transferrin
and DMT-1, to the brain has also been implicated in the welding-fume exposure. Thus, the increased signal intensities in the basal ganglia, including the globus pallidus and subcortical frontal white matter, based on T1-weighted magnetic resonances in welders, require further examination as regards the correspondence with an increased manganese concentration. Accordingly, to investigate the movement of manganese after welding-fume exposure, 6 cynomolgus monkeys were acclimated for 1 mo and assigned to 3 dose groups: unexposed, low dose of (total suspended particulate [TSP] 31 mg/m3, 0.9 mg/m3 of Mn), and high dose of total suspended particulate (62 mg/m3 TSP, 1.95 mg/m3 of Mn). The primates were exposed to manual metal-arc stainless steel (MMA-SS) welding fumes for 2 h/day in an inhalation chamber system equipped with an automatic fume generator for 6 mo. Magnetic resonance imaging (MRI) studies of the basal ganglia were conducted before the initiation of exposure and thereafter every month. During the exposure, the blood chemistry was monitored every 2 wk and the concentrations of metal components in the blood were measured every 2 wk and compared with ambient manganese concentrations. The manganese concentrations in the blood did not show any significant increase until after 2 mo of exposure, and then reached a plateau after 90 days of exposure, showing that an exposure period of at least 60 days was required to build up the blood Mn concentration. Furthermore, as the blood Mn concentration continued to build, a continued decrease in the MRI T1 relaxation time in the basal ganglia was also detected. These data suggested that prolonged inhalation of welding fumes induces a high MRI T1 signal intensity with an elevation of the blood manganese level. The presence of a certain amount of iron or other metals, such as Cr and Ni, in the inhaled welding fumes via inhalation was not found to have a significant effect on the uptake of Mn into the brain or the induction of a high MRI T1 signal intensity.
...
PMID:Changes in blood manganese concentration and MRI t1 relaxation time during 180 days of stainless steel welding-fume exposure in cynomolgus monkeys. 1712 42
