Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0037116 (
silicosis
)
1,822
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Pneumoconiosis may be classified as either fibrotic or nonfibrotic, according to the presence or absence of fibrosis.
Silicosis
, coal worker pneumoconiosis, asbestosis, berylliosis, and talcosis are examples of fibrotic pneumoconiosis. Siderosis,
stannosis
, and baritosis are nonfibrotic forms of pneumoconiosis that result from inhalation of iron oxide, tin oxide, and barium sulfate particles, respectively. In an individual who has a history of exposure to silica or coal dust, a finding of nodular or reticulonodular lesions at chest radiography or small nodules with a perilymphatic distribution at thin-section computed tomography (CT), with or without eggshell calcifications, is suggestive of
silicosis
or coal worker pneumoconiosis. Magnetic resonance imaging is helpful for distinguishing between progressive massive fibrosis and lung cancer. CT and histopathologic findings in asbestosis are similar to those in idiopathic pulmonary fibrosis, but the presence of asbestos bodies in histopathologic specimens is specific for the diagnosis of asbestosis. Giant cell interstitial pneumonia due to exposure to hard metals is classified as a fibrotic form of pneumoconiosis and appears on CT images as mixed ground-glass opacities and reticulation. Berylliosis simulates pulmonary sarcoidosis on CT images. CT findings in talcosis include small centrilobular and subpleural nodules or heterogeneous conglomerate masses that contain foci of high attenuation indicating talc deposition. Siderosis is nonfibrotic and is indicated by a CT finding of poorly defined centrilobular nodules or ground-glass opacities.
...
PMID:Pneumoconiosis: comparison of imaging and pathologic findings. 1641 44
The nanopathological diagnostics (ND) is an ultra-specialized branch of pathological anatomy aimed to identify the nanoparticles of metallic, semimetallic, or nonmetallic elements in the inorganic particulate matter present inside pathological tissues, even on the nanometer scale. ND exploits an environmental scanning electron microscope, connected to an X-ray microprobe mounted on an energy-dispersive spectrometer. The searching of nanoparticles can be performed on paraffin-embedded material, omitting emissions of black overlay and plating procedures. The technique is highly sensitive and specific, reproducible and rapid, covering an entire operating cycle in few hours. Nowadays, ND finds many applications: (I) intratumor detection of heavy metals and endocrine metal disruptors; (II) identification of pathogenic nanoparticles in medical or veterinary drugs and devices, cosmetics, household products, and foodstuffs; (III) differential diagnosis of sarcoid-type granulomas (berylliosis, baritosis) and foreign body granulomas (prosthetic, iatrogenic); (IV) attestation of occupational disease correlating the datum with the occupational risk (anthracosis, asbestosis, bauxite fibrosis, byssinosis, chalicosis, siderosis,
silicosis
,
stannosis
, talcosis); and (V) forensic investigations to ascertain a causal link between disease and environmental, military, or work exposure. In addition to filling a knowledge gap, ND offers to the pathologist a current research field, with particular reference to the impact of occupational and environmental pollution on the human health and cancer.
...
PMID:State-of-the-art nanopathological diagnostics. 2880 87
