Pericardial Effusion With Tamponade in Lung Cancer Patients During Treatment With Nivolumab: A Report of Two Cases

Background: Nivolumab is an immune checkpoint inhibitor (ICI) that has shown efficacy for treating non-small cell lung cancer and has become a standard therapy for previously treated non-small cell lung cancer. Moreover, immune-related adverse events of ICI therapy are well-known. Malignant pericardial effusions occasionally arise in patients with lung cancer. There have been a few reports of pericardial effusion in non-small cell lung cancer after nivolumab administration. However, the cause of this condition is controversial; the possibilities include serositis as an immune-related adverse event or pseudo-progression.Case Presentation: This report presents two cases of pericardial effusion with tamponade in lung cancer during treatment with nivolumab. Both patients experienced temporal increases in pericardial effusions followed by effusion regression. In one case, nivolumab administration was continued after performance of pericardiocentesis, without an increase in pericardial effusion. In the other case, temporal simultaneous increases in both the pericardial effusion and the primary tumor were detected, followed by simultaneous regression in both the effusion and the tumor. These findings support the fact that the pericardial effusions were caused by pseudo-progression.Conclusions: Pericardial effusion with tamponade can occur in lung cancer patients being treated with nivolumab; moreover, some of these effusions might be caused by pseudo-progression. In the case of putative pseudo-progression, continuation of nivolumab administration might be allowable with strict follow up

Smoldering adult T-cell leukemia complicated with pneumocystis pneumonia: A case report

Adult T-cell leukemia (ATL) is a tumor of CD4-positive T cells that accompanies an infection by human T-cell lymphotropic virus (HTLV-I). ATL is classified into four types—acute, lymphomatous, chronic, and smoldering. Opportunistic infections are known to occur in patients with acute or lymphomatous type ATL; however, whether patients with chronic or smoldering ATL also have a high risk of opportunistic infections is not yet known. Herein, we report a case of pneumocystis pneumonia in a patient with smoldering ATL. He was a 64-year-old man with primary complaints of cough and dyspnea on exertion. A chest radiograph showed infiltration shadows in the left lung field. He was prescribed antibiotics for pneumonia; however, his symptoms worsened, and he developed hypoxemia. White-blood cell count was 13000/μL, and 7% of atypical lymphocytes were found in the smears of peripheral blood cells. His serum β-D glucan concentration was increased to 85.9 pg/mL, and his serum tested positive for anti–HTLV-1 antibody. Chest-computed tomography revealed diffuse ground-glass opacities in the bilateral lung fields. Pneumocystis-polymerase chain reaction performed on bronchoalveolar lavage fluid confirmed pneumocystis, but atypical lymphocytes were not detected via transbronchial lung biopsy. Therefore, he was diagnosed with pneumocystis pneumonia associated with smoldering ATL. Sulfamethoxazole-trimethoprim and corticosteroid therapies were administered to treat the pneumocystis pneumonia, and his symptoms and lung shadows improved rapidly. Thus, opportunistic infections, including pneumocystis pneumonia, may be caused by smoldering ATL. In the case of atypical lymphocyte detection in peripheral-blood smears, clinicians should consider the possibility of ATL

Pulmonary cryptococcosis in a ruxolitinib-treated patient with primary myelofibrosis

We present the case of a 79-year-old man who showed multiple pulmonary nodules on chest computed tomography (CT) after being treated for 6 months with ruxolitinib, an inhibitor of Janus kinase (JAK) 1 and 2, to treat primary myelofibrosis. We examined the lesions by bronchoscopy, and the biopsy specimen revealed fungus bodies of Cryptococcus with granulomatous inflammation. As a result, the patient was diagnosed with pulmonary cryptococcosis. The patient was treated with fluconazole (200 mg daily for 2 weeks) with concomitant ruxolitinib administration, but the pulmonary lesions progressed. Subsequently, the patient was treated with voriconazole (300 mg daily for 3 weeks), but the lesions worsened further. The administration of ruxolitinib was therefore discontinued, and the dosage of voriconazole was increased to 400 mg daily. Three months later, the pulmonary lesions diminished in size. The present case of pulmonary cryptococcosis occurred in a patient treated with ruxolitinib. Treatment of pulmonary cryptococcosis with concomitant JAK inhibitor administration may result in poor treatment efficacy. It might be better to stop administration of JAK inhibitors, if possible, in patients being treated for pulmonary cryptococcosis