BACKGROUND There are few studies of how to diagnose small cell lung cancer in cytological tests through morphometric analysis. We tried to measure and analyze characteristics of small cell carcinoma in lung by image analysis. METHODS We studied three types of cytologic specimens from 89 patients who were diagnosed with small cell lung cancer by immunohistochemistry. We measured area, perimeter, maximal length and maximal width of cells from small cell carcinoma using image analysis. RESULTS In lung aspirates, the nuclear mean area, perimeter, maximal length and maximal width of small cell lung cancer were 218.69 microm2, 55 microm, 18.48 microm and 14.65 microm. In bronchial washings, nuclear measurements were 194.66 microm2, 50.07 microm, 16.27 microm and 14.1 microm. In pleural fluid, values were 177.85 microm2, 48.09 microm, 15.7 microm and 13.37 microm. CONCLUSIONS Nuclear size of small cell lung carcinoma is variable and depends on the cytology method. Nuclei are spindle-shaped and larger in small cell carcinoma from lung aspirates than in bronchial washings or pleural fluid. The cytoplasms of the cells in bronchial washings and pleural fluid were swollen. Therefore, one should consider morphologic changes when trying to diagnose small cell lung cancer through cytological tests.
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Pneumocystis pneumonia (PCP) is caused by the yeast-like fungus Pneumocystis jirovecii, which is specific to humans.
PCP could be a source of opportunistic infection in adults that are immunosuppressed and children with prematurity or malnutrition. The diagnosis should be confirmed by identification of the causative organism, by analysis of the sputum, a bronchoalveolar lavage or a tissue biopsy. In both histologic and cytologic specimens, the cysts are contained within frothy exudates, which form aggregated clumps. The cysts often collapse forming crescent-shaped bodies that resemble ping-pong balls. We recently diagnosed nine cases of PCP using an immunohistochemical stain for Pneumocystis.
The patients consisted of five human immunodeficiency virus positive individuals, two renal transplant recipients, and two patients with a malignant disease. All nine patients were infected with P. jirovecii, which was positive for monoclonal antibody 3F6. In conclusion, the immunohistochemical stain used in this report is a new technique for the detection of P. jirovecii infection.
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Amiodarone is a potent antiarrhythmic agent and can cause potentially life-threatening pulmonary fibrosis. Of the numerous side effects associated with amiodarone therapy, lugn toxicity is one of the most serious adverse reactions.
Recently, we experienced a case of amiodarone-induced pulmonary toxicity (APT), which induced severe dyspnea and productive coughing, confirmed by cytologic and electron microscopic examination of the bronchoalveolar lavage (BAL).
The symptoms and abnormalities in the chest X-ray were improved after the withdrawal of amiodarone. Cytologic examination of the BAL revealed numerous foam cells with cytoplasmic vacuoles or small particles. Ultrastructurally, the foam cells demonstrated characteristic lysosomal inclusions, which were electron-dense multilamellated bodies, crystalloid bodies, and mixed forms with small lipid vacuoles. It is strongly suggested that only cytologic and electron microscopic examination of the BAL without open lung biopsy is enough for diagnosis of APT, when APT is clinically suspected in a patient who has a history or ingestation of amiodarone.
Pneumocystis carinii is an established cause of pulmonary infections in immuno- compromised hosts. Several cytological stains, such as Papanicolaou, Gomori methenamine silver(GMS) and Diff-Quik have been used for detection of the organism, but occasionally can be laborious and, due to a degree of nonspecificity, may be misleading.
We evaluated the diagnostic utility of immunocytochemical stains that recognize P.
carinii in bronchoalveolar lavage from experimentally induced P. carinii pneumonia rats(n=15). In addition to routine stains for diagnosis by morphologic recognition of P.
carinii on Papanicolaou, GMS and Diff-Quik stains, bronchoalveolar lavage samples were reacted with immunocytochemical stains using monoclonal antibodies(MAB) 092 and 902.
In bronchoalveolar lavage P. carinii organisms were detected in 9 of 10 cases (90%) using each MAB 092 and 902, whereas GMS and Diff-Quik stains demonstrated P. carinii in 13(86%) and 11(73%) of 15 cases respectively. In lung tissue specimens(n=15) P. carinii organisms were well identified on GMS stain and immunohistochemical stains using MAB 092 and 902 in all cases.
We believe that the immunocytochemical staining using MAB 092 and/or 902 is a very useful and diagnostic tool in addition to GMS and Diff-Quik stain to detect P.
carinii organisms in bronchoalveolar lavage.
Pulmonary alveolar proteinosis(PAP) is a rare disease in which the alveolar spaces are filled with an eosinophilic, PAS-positive material, whereas the interstitial architecture of the lung usually remains unaffected. Although a definitive diagnosis is usually made by an open lung biopsy, bronchoalveolar lavage(BAL) cytology may play a decisive role in the diagnosis and therapy of these patients and may spare a patient a more invasive diagnostic procedure. The author presents a patient in whom BAL cytology specimen contained the characteristic globules of amorphous proteinaceous PAS-positive material accompanied by background of rare macrophages and inflammatory cells.
Ultrastructural study using BAL specimen can confirm the diagnosis of PAP.