Thymic epithelial tumours form the most important differential diagnosis for anterior mediastinal masses, among which thymomas constitute nearly 50 per cent of these lesions. These are infrequent and possess certain unique characteristics1. The thymus plays a central role in the development of self-immunological tolerance by appropriate conditioning of T-cell progenitors that enter the gland. Consequently, thymic pathology (including thymomas) leads to the generation of a variety of autoantibodies. Hence, a significant proportion of patients with thymomas present with features of paraneoplastic syndromes (PNSs) to the extent of exclusion of chest-related symptoms. The most common manifestation is myasthenia gravis, induced by anti-acetylcholine esterase antibodies, identified in close to 95 per cent of patients with available clinical data in a large series of Indian patients published in this issue2. It must be borne in mind that there are also other PNSs (including multiorgan autoimmunity), secondary cancers as well as opportunistic infections, which are explained in part by acquired T-cell immunodeficiency3. The presence of PNSs, paradoxically, was associated with favourable features4.On histology, the thymomas, in general, are seen to be composed of epithelial cells and lymphocytes in varying proportions. However, this seemingly innocuous admixture has led to several classification systems over decades5. The classification used currently and in this article by Guleria et al2 is the WHO 20156, which identifies five subtypes (A, AB, B1, B2 and B3) depending on the morphology of the epithelial cells (spindloid cells, epithelioid cells or their combinations) and proportion of lymphocytes. The authors concluded that the thymomas of B2 and AB subtypes were the most common in the Indian population, in contrast to the studies from the Western world. However, in a recent, multi-institutional study of 1470 patients with thymomas from 11 countries, a similar distribution was found7. Furthermore, the Indian studies quoted2 are either clinical (without a thorough histological review) or have been studies of 'mixed bag' of mediastinal tumours. Hence, to have an idea of the actual distribution, there is a need to have multi-institutional collaborations with thymomas in sufficient numbers. It would also be important to follow a protocol8 for clinicoradiological, gross and histological assessment of such tumours, as there are some studies indicating that even tumour sizes are useful in predicting prognosis9.Another feature of thymomas is that the histotypes do not necessarily correlate with the clinical behaviour, prognosis and overall survival, which explains the use of the modified Masaoka-Koga staging system10. With time, there would presumably be more robust criteria for prognosis and therapeutic management such as utility of the angiogenesis patterns11, immunoexpression of programmed death ligand 112, molecular profiling13 and even detection of proteomic signatures14.
Authors: Andrew G Nicholson; Frank Detterbeck; Alexander Marx; Anja C Roden; Alberto M Marchevsky; Kiyoshi Mukai; Gang Chen; Mirella Marino; Michael A den Bakker; Woo-Ick Yang; Meagan Judge; Lynn Hirschowitz Journal: Histopathology Date: 2016-11-28 Impact factor: 5.087
Authors: Franz Enkner; Bettina Pichlhöfer; Alexandru Teodor Zaharie; Milica Krunic; Tina Maria Holper; Stefan Janik; Bernhard Moser; Karin Schlangen; Barbara Neudert; Karin Walter; Brigitte Migschitz; Leonhard Müllauer Journal: Pathol Oncol Res Date: 2016-11-14 Impact factor: 3.201
Authors: Prerna Guleria; Rajinder Parshad; Prabhat Singh Malik; Ruma Ray; R M Pandey; Deepali Jain Journal: Indian J Med Res Date: 2019-08 Impact factor: 2.375