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. Author manuscript; available in PMC: 2023 Dec 1.
Published in final edited form as: Pharmacol Ther. 2022 Jun 19;240:108232. doi: 10.1016/j.pharmthera.2022.108232

Table 1.

References on PMF included in review.

Subject area / reference Type of study Comment

Occurrence of PMF and Related Conditions in Work and Environmental Settings
Coal Mining
Almberg et al., 2018 Observational, no control Reports findings among those filing for benefits from the U.S. Black Lung Benefits Program for the period 1970–2016
Blackley et al., 2014 Observational, no control Reports findings from U.S. coal miners participating in a health screening program, 2005–2012
Blackley et al., 2016 Observational, no control Reports a cluster of coal miners with PMF1 cared for in a clinic in eastern Kentucky
Blackley, Halldin, & Laney, 2018 Observational, no control Reports findings from national surveillance for pneumoconiosis in U.S. coal miners, 1970–2017
Blackley, Reynolds, Short, et al., 2018 Observational, no control Reports a cluster of coal miners with PMF cared for in 3 clinics in western Virginia
Graber et al., 2017 Observational, no control Reports findings among those filing for benefits from the U.S. Black Lung Benefits Program for the period 2001 to 2013
Halldin et al., 2015 Observational, no control Describes 8 surface coal miners with PMF identified in U.S. screening program, 2010–2011
Hall et al., 2020 Observational, no control Reports findings among U.S. surface coal miners participating in national surveillance, 2014–2019
Hall et al., 2022 Observational, no control Reports findings among American Indian/Alaska native participants in national surveillance, 2014–2019
Laney & Attfield, 2010 Observational, no control Reports findings among U.S. coal miners participating in national surveillance, 1970–2009
Laney, Petsonk, & Attfield, 2010 Observational, no control Reports findings among U.S. coal miners participating in national surveillance, 1980–2008
Laney, Wolfe, Petsonk et al., 2012 Observational, no control Reports findings among U.S. surface coal miners screened for pneumoconiosis, 2010–2011
Laney, Petsonk, Hale, et al., 2012 Observational, no control Reports findings among U.S. coal miners participating in health screening, 2005–2009
Reynolds et al., 2018 Observational, no control Reports results of interviews to identify hazards experienced by19 former U.S. coal miners with PMF
Tomaskova et al., 2012 Observational, cohort study with comparison to general male population Former coal miners in the Czech Republic without coal workers’ pneumoconiosis or with varying degrees of radiological severity of coal workers’ pneumoconiosis
Vallyathan et al., 2011 Observational, no control Reports results of lung histopathology from coal miners’ autopsies submitted to U.S. government program, 1971–1996
Wade et al., 2011 Observational, no control Reports findings among coal miners filing for compensation from the West Virginia State Occupational Pneumoconiosis Board, 2000–2009
Settings Associated with Silicosis
 Bakan et al. 2012 Observational, follow up of clinical cohort Describes features of silicosis in 32 Turkish denim sandblasters followed for a median of 29 months (range 3–101 months).
Govindagoudar et al., 2021 Observational, no control Reports results of radiographic screening of stone crushing workers in India
Hua et al., 2022 Observational, no control Describes features of registrants in an international registry of engineered stone workers with silicosis
 Hoyet al., 2017 Observational, no control Case series of silicosis in 7 Australian workers engaged in workwith artificial stone
Kramer et al., 2012 Observational, no control Describes 25 artificial stone workers with silicosis who were referred to a lung transplantation program in Israel
Lopes et al., 2012 Observational, cross-sectional comparison of sandblasters and stone carvers Describes and compares features of silicosis in 25 Brazilian shipyard sandblasters and 16 Brazilian stone carvers
Nandi et al., 2021 Observational, no control Describes silicosis in sandstone mine workers in Rajasthan, India.
Nicol et al., 2015 Observational, no control Describes 6 cases of silicosis among stonemasons <40 years old in the UK
Reilly et al., 2018 Observational, no control Describes cases of silicosis reported to the state of Michigan, 1988–2016
Siribaddana et al., 2016 Observational, no control Describes silicosis in employees of a quartz processing facility in Sri Lanka
Spalgais et al., 2015 Observational, no control Describes 6 cases of nonoccupational anthracosis and silicosis among homemakers in the Ladakh region of Jammu and Kashmir, India
Wu et al., 2020 Observational, cross-sectional comparison of artificial and natural stone workers Describes and compares features of silicosis in China in18 artificial stone workers and 63 natural stone workers who had worked in jade processing or in mines
Progression to PMF
Almberg et al., 2020 Observational, no control (cohort) Reports findings among those filing for benefits from the U.S. Black Lung Benefits Program who had more than one chest x-ray in the period 2000–2013
Laney et al., 2017 Observational, no control (cohort) Reports findings among U.S. coal miners first found to have PMF during national surveillance conducted 2000–2016 who had at least one prior chest x-ray
León-Jiménez et al., 2020 Observational, no control (cohort) Reports findings among 106 Spanish artificial stone workers diagnosed with silicosis from 2009 to 2018 with subsequent clinical follow up for a mean of 4 years
Association Between PMF and Pulmonary Function
Grubstein et al., 2016 Observational, no control Describes findings in marble workers exposed to artificial stone dust referred to an outpatient pulmonary clinic in Israel, 1997–2015
Kurth et al., 2020 Observational, no control Describes findings in U.S. coal miners participating in health screening, 2005–2016
Rosenman et al., 2010 Observational, no control Describes findings in individuals with silicosis reported to the Michigan Silicosis Registry, 1985–2002.
Wang et al., 2013 Observational, no control Reports findings among U.S. coal miners participating in health screening, 2005–2009
Imaging of PMF
Choi et al., 2020 Retrospective evaluation of patient data Retrospective evaluation of PET2/CT3 findings from 49 patients with pneumoconiosis being evaluated for suspected lung cancer
Chung et al., 2010 Retrospective evaluation of patient data Retrospective evaluation of FDG4/PET findings from 9 patients with PMF
Friedman et al., 2021 Observational, no control Describes findings of physicians classifying chest x-rays in U.S. Black Lung Benefits proceedings that were filed 2000–2013
Guneyli et al., 2021 Retrospective evaluation of patient data Describes magnetic resonance imaging findings in 60 male patients with histories of working in underground coal mines who were evaluated due to suspicion of lung cancer after computed tomography.
Halldin et al., 2020a Observational, no control Describes findings on chest radiographs showing PMF obtained from U.S. coal miners participating in periodic health surveillance from 2000 to 2015
Hekimoğlu et al., 2010 Prospective evaluation of patient data Describes findings from 20 coal workers with PMF evaluated with computed tomography and magnetic resonance imaging
Jones et al., 2020 Observational, no control Describes and provides review of radiologic findings encountered during Australian outbreak of silicosis in artificial stone workers and provides examples from several individual cases
Ogihara et al., 2018 Retrospective evaluation of clinical data Retrospective evaluation of 28 patients with known pneumoconiosis undergoing magnetic resonance imaging because of concern for possible lung cancer
Ozmen et al., 2010 Observational, no control Describes chest computed tomography in 60 consecutive patients with histories of exposure to silica during denim sandblasting presenting for care at a clinic in Turkey
Sari et al., 2022 Observational, no control Describes chest computed tomography in 90 patients with PMF primarily after coal mine dust or silica exposure in Turkey
Takahashi et al., 2018 Observational, cross-sectional comparison 2 occupational groups. Describes and compares radiologic findings in 66 patients with arc welders’ pneumoconiosis and 33 patients with silicosis seen in Japanese clinics
Zhang et al., 2017 Retrospective evaluation of clinical data Compares magnetic resonance imaging findings from 25 patients with coal workers’ pneumoconiosis and PMF and 34 patients with lung-tumor like lesions (21 had lung cancer)
Mechanisms of PMF Development
Cohen et al., 2016 Observational, no control Reports histopathology and lung particle analysis from 13 coal miners with rapidly progressive pneumoconiosis
Cohen et al., 2022 Observational, with comparison group Reports histopathology and lung particle analysis from 85 coal miners with PMF, compares coal miners born before and after 1930
García-Núñez et al., 2022 Observational, with comparison group Reports and compares blood inflammation biomarkers in 53 artificial stone workers with small opacity silicosis, 38 with PMF, and 22 healthy male volunteers
Komai et al., 2019 Animal model Describes animal model of silicosis induced by intratracheal instillation of silica in F344 rats
Lee et al., 2015 Observational, cross-sectional comparison of subgroups Describes findings in 106 male retired Korean coal miners, with results compared between those without pneumoconiosis, those with small opacity pneumoconiosis, and those with large opacities (PMF)
León-Jiménez et al., 2021 Observational, no comparison group Describes histopathologic and mineralogic analyses of lung biopsies from seven engineered stone workers with silicosis, four of which developed PMF during follow up
1

Progressive massive fibrosis.

2

Positron emission tomography.

3

Computedtomography.

4

18-Fluorine-labeled 2-deoxy-2-fluoro-d-glucose.