This case report describes a patient with a malignant thymus tumor who later showed a high number of normal T‑cells in the blood and unusually high levels of the hormone thymosin‑alpha‑1, while another related hormone was low. The researchers think the extra T‑cells aren’t a second cancer but may be due to an immune imbalance caused by the tumor.

Patients with malignant thymoma rarely may also have a peripheral T-cell lymphocytosis. "Lymphocyte spillover" from the thymus into the peripheral blood as well as a second, associated neoplasm (ie, T-cell chronic lymphocytic leukemia) are two hypotheses that have been proposed to explain this clinical phenomenon. We describe another patient with a lymphocyte-rich malignant thymoma associated with peripheral T-cell lymphocytosis. At the time of initial diagnosis, the patient's complete blood cell count was unremarkable. However, subsequent to the development of pulmonary metastases, the patient developed persistent lymphocytosis. The total leukocyte count ranged from 20 to 30 x 10(9)/L, 80% of these cells being lymphocytes. Immunophenotypic analysis of peripheral blood specimens from this patient proved that the circulating cells were mature, polyclonal T cells. The cells expressed the alpha/beta T-cell receptor and the pan-T-cell antigens CD2, CD3, CD5, and CD7, and were negative for both terminal deoxynucleotidyl transferase (TdT) and the CD1 antigen. A mixture of T-helper (CD4+) and T-suppressor (CD8+) cells were present in a ratio of 1:1.6. Gene rearrangement studies revealed that the T-cell receptor beta chain and the immunoglobulin heavy-chain genes were in the germline configuration. Serum samples from this patient were also analyzed for thymic hormones; the level of thymosin alpha 1 was markedly elevated, while that of thymosin beta 4 was decreased. These results effectively exclude the hypothesis that the lymphocytosis represents a second, associated neoplasm. The lymphocyte spillover hypothesis also seems unlikely (although not excluded), since the lymphocytes in lymphocyte-rich thymomas usually have an immature thymic cortical immunophenotype. Furthermore, one might expect nonspecific elevation of all thymic hormone levels with lymphocyte spillover. Thus, we suggest that the lymphocytosis results from a poorly defined immunoregulatory disorder, related to the presence of thymoma, and perhaps secondary thymic hormone imbalance.