CYTOMORPHOLOGICAL DETECTION OF MALIGNANT EFFUSIONS IN NON-HODGKIN LYMPHOMA: AN INSTITUTIONAL EXPERIENCE IN A DEVELOPING COUNTRY
DOI:
https://doi.org/10.22159/ajpcr.2019.v12i3.29264Keywords:
NilAbstract
Objective: Lymphomatous effusions of the body cavity may be the presenting feature or develop later as a complication of systemic disease. The detection rate of lymphoma in cytologic specimen is low, especially in the absence of clinical details and ancillary studies. The present study was carried out to identify light microscopic features that are useful in identifying lymphomas on effusion cytology.
Methods: A 5-year retrospective study of all patients with fluid cytology or tissue biopsy reported as suspicious or positive for non-Hodgkin lymphoma (NHL) in a tertiary care was done. The cytology, histopathology, and immunohistochemistry slides were reviewed.
Results: A total of 27 cases were included in the study. Correlation with the histopathological sections of all the positive cases revealed that the cytomorphology of the abnormal lymphoid cells was monomorphous and similar to those seen in the tissue biopsy. Mercury drop karyorrhexis when present was characteristic of lymphomatous effusions. The detection rates of large cell lymphomas are higher than low-grade counterparts. Non-lymphomatous effusions showed heterogeneous lymphoid cell population and lacked karyorrhexis.
Conclusion: Lymphomas can give rise to effusions. In the absence of resources in developing countries, it is important to distinguish lymphomatous effusion from a reactive process based on morphology. Monomorphous population of the lymphoid cells and presence of mercury drop karyorrhexis are useful morphological clues in identifying a lymphomatous effusion. Further, tuberculosis is a common non-neoplastic process that can be mistaken for a low-grade NHL.
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References
Das DK. Serous effusions in malignant lymphomas: A review. Diagn Cytopathol 2006;34:335-47.
Bangerter M, Hildebrand A, Griesshammer M. Combined cytomorphologic and immunophenotypic analysis in the diagnostic workup of lymphomatous effusions. Acta Cytol 2001;45:307-12.
Storey DD, Dines DE, Coles DT. Pleural effusion. A diagnostic dilemma. J Am Med Assoc 1976;236:2183-6.
Alexandrakis MG, Passam FH, Kyriakou DS, Bouros D. Pleural effusions in hematologic malignancies. Chest 2004;125:1546-55.
Bode-Lesniewska B. Flow cytometry and effusions in lymphoproliferative processes and other hematologic neoplasias. Acta Cytol 2016;60:354-64.
Chen YP, Huang HY, Lin KP, Medeiros LJ, Chen TY, Chang KC, et al. Malignant effusions correlate with poorer prognosis in patients with diffuse large B-cell lymphoma. Am J Clin Pathol 2015;143:707-15.
Liam CK, Lim KH, Wong CM. Differences in pleural fluid characteristics, white cell count and biochemistry of tuberculous and malignant pleural effusions. Med J Malaysia 2000;55:21-8.
Melamed MR. The cytological presentation of malignant lymphomas and related diseases in effusions. Cancer 1963;16:413-31.
Spriggs AI, Vanhegan RI. Cytological diagnosis of lymphoma in serous effusions. J Clin Pathol 1981;34:1311-25.
Cakir E, Demirag F, Aydin M, Erdogan Y. A review of uncommon cytopathologic diagnoses of pleural effusions from a chest diseases center in Turkey. Cytojournal 2011;8:13.
Antonangelo L, Vargas FS, Genofre EH, Oliveira CM, Teixeira LR, Sales RK, et al. Differentiating between tuberculosis-related and lymphoma-related lymphocytic pleural effusions by measuring clinical and laboratory variables: Is it possible? J Bras Pneumol 2012;38:181-7.
Light RW. Update on tuberculous pleural effusion. Respirology 2010;15:451-8.
He SR, Peng WX, Sun MJ, Yang L, He L, Su XL, et al. Cytodiagnosis and cytomorphologic analysis of hematolymphoid malignancy in serous effusion: A study of 23 cases. Zhonghua Bing Li Xue Za Zhi 2012;41:691-5.
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