BACKGROUND: Pneumoconiosis among coal miners in the USA has been resurgent over the past two decades, despite modern dust controls and regulatory standards. Previously published studies have suggested that respirable crystalline silica (RCS) is a contributor to this disease resurgence. However, evidence has been primarily indirect, in the form of radiographic features. METHODS: We obtained lung tissue specimens and data from the National Coal Workers' Autopsy Study. We evaluated specimens for the presence of progressive massive fibrosis (PMF) and used histopathological classifications to type these specimens into coal-type, mixed-type and silica-type PMF. Rates of each were compared by birth cohort. Logistic regression was used to assess demographic and mining characteristics associated with silica-type PMF. RESULTS: Of 322 cases found to have PMF, study pathologists characterised 138 (43%) as coal-type, 129 (40%) as mixed-type and 55 (17%) as silica-type PMF. Among earlier birth cohorts, coal-type and mixed-type PMF were more common than silica-type PMF, but their rates declined in later birth cohorts. In contrast, the rate of silica-type PMF did not decline in cases from more recent birth cohorts. More recent year of birth was significantly associated with silica-type PMF. CONCLUSIONS: Our findings demonstrate a shift in PMF types among US coal miners, from a predominance of coal- and mixed-type PMF to a more commonly encountered silica-type PMF. These results are further evidence of the prominent role of RCS in the pathogenesis of pneumoconiosis among contemporary US coal miners.

RATIONALE: The reasons for resurgent coal workers' pneumoconiosis and its most severe forms, rapidly progressive pneumoconiosis and progressive massive fibrosis (PMF), in the United States (US) are not yet fully understood. OBJECTIVE: To compare the pathologic and mineralogic features of contemporary coal miners suffering severe pneumoconiosis to their historical counterparts. METHODS: Lung pathology specimens from 85 coal miners with PMF were included for evaluation and analysis. We compared the proportion of cases with pathologic and mineralogic findings in miners born between 1910 and 1930 (historical) to those born in or after 1930 (contemporary). RESULTS: We found a significantly higher proportion of silica-type PMF (57% vs. 18%, p<0.001) among contemporary miners compared to their historical counterparts. Mineral dust alveolar proteinosis (MDAP) was also more common in contemporary miners compared to their historical counterparts (70% vs. 37%, p<0.01). In situ mineralogic analysis showed the percentage (26.1% vs. 17.8%, p<0.01) and concentration (47.3 x 108 vs. 25.8 X 108 particles/cm3, p=0.036) of silica particles was significantly greater in specimens from contemporary miners compared to their historical counterparts. The concentration of silica particles was significantly greater when silica-type PMF, MDAP, silicotic nodules, or immature silicotic nodules were present (p<0.05). CONCLUSIONS: Exposure to respirable crystalline silica appears causal in the unexpected surge in severe disease in contemporary miners. Our findings underscore the importance of controlling workplace silica exposure in order to prevent the disabling and untreatable adverse health effects afflicting US coal miners. Primary Source of Funding: Alpha Foundation for the Improvement of Mine Safety and Health, Inc.

Multi-walled carbon nanotubes (MWCNT) are new materials with a wide range of industrial and commercial applications. However, their nano-scaled size and fiber-like shape render them respirable and potentially fibrogenic if inhaled into the lungs. To understand MWCNT fibrogenesis, we analyzed the pathologic and molecular aspects of the early phase response to MWCNT in mouse lungs. MWCNT induced rapid and pronounced lesions in the lungs characterized by increased cellularity and formation of fibrotic foci, most notably near where MWCNT deposited, within 14 days post-exposure. Deposition of collagen fibers was markedly increased in the alveolar septa and fibrotic foci, accompanied by elevated expression of fibrotic genes Col1a1, Col1a2, and Fn1 at both mRNA and protein levels. Fibrosis was induced rapidly at 40 mug, wherein fibrotic changes were detected on day 1 and reached a maximal intensity on day 7 through day 14. Induction of fibrosis was dose-dependent at the dose range of 5-40 mug, 7 days post-exposure. MWCNT elicited rapid and prominent infiltrations of neutrophils and macrophages alongside fibrosis implicating acute inflammation in the fibrotic response. At the molecular level, MWCNT induced elevated expression of proinflammatory cytokines TNFalpha, IL1alpha, IL1beta, IL6, and CCL2 in lung tissues as well as the bronchoalveolar lavage fluid, in a dose- and time-dependent manner. MWCNT also increased the expression of fibrogenic growth factors TGF-beta1 and PDGF-A in the lungs significantly. These findings underscore the interplay between acute inflammation and the early fibrotic response in the initiation and propagation of pulmonary fibrosis induced by MWCNT.

Benzo[a]pyrene (BP) is a potent pro-carcinogen and ubiquitous environmental pollutant. Here, we examined the induction and modulation of CYP1A1 and CYP1B1 and 10-(deoxyguanosin-N(2)-yl)-7,8,9-trihydroxy-7,8,9,10-tetrahydrobenzo[a]pyrene (BPdG) adduct formation in DNA from 20 primary normal human mammary epithelial cell (NHMEC) strains exposed to BP (4muM) in the absence or presence of chlorophyllin (5muM). Real-time polymerase chain reaction (RT-PCR) analysis revealed strong induction of both CYP1A1 and CYP1B1 by BP, with high levels of inter-individual variability. Variable BPdG formation was found in all strains by r7, t8-dihydroxy-t-9, 10 epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (BPDE)-DNA chemiluminescence assay (CIA). Chlorophyllin mitigated BP-induced CYP1A1 and CYP1B1 gene expression in all 20 strains when administered with BP. Chlorophyllin, administered prior to BP-exposure, mitigated CYP1A1 expression in 18/20 NHMEC strains (p<0.005) and CYP1B1 expression in 17/20 NHMEC strains (p<0.005). Maximum percent reductions of CYP1A1 and CYP1B1 gene expression and BPdG adduct formation were observed when cells were pre-dosed with chlorophyllin followed by administration of the carcinogen with chlorophyllin (p<0.005 for CYP1A1 and CYP1B1 expression and p<0.0005 for BPdG adducts). Therefore, chlorophyllin is likely to be a good chemoprotective agent for a large proportion of the human population.