Cold agglutinin anti-I antibodies in two patients with COVID-19.

BACKGROUND: Cold agglutinin syndrome (CAS) is associated with various diseases. Several studies of CAS associated with coronavirus disease 2019 (COVID-19) reported hemolytic anemia and thrombosis; however, the clinical significance of cold agglutinins (CA) in patients with COVID-19 is unclear. Here, we present two cases of CA identified in the context of COVID-19 without hemolytic anemia and clotting. CASE REPORT AND DISCUSSION: Two patients with no known risk factors for CA were diagnosed with COVID-19; peripheral blood smears reveal red blood cells (RBCs) agglutination. These patients showed a high CA titer. We confirmed retrospectively that the CA was an anti-I antibody. The two COVID-19 cases with a high CA titer showed no hemolysis or thrombosis. Mycoplasma pneumoniae is known to cause CAS, but not all patients who have a high CA titer show hemolysis. Coagulation abnormalities are documented in severe COVID-19 cases. Although CA increases the risk of thrombosis in those with lymphoproliferative diseases, the role of anti-I antibodies in COVID-19 is unclear. The impact of CAS on clinical presentations in COVID-19 remains a matter of verification. CONCLUSIONS: A high CA titer was identified in COVID-19 patients without hemolytic anemia and clotting. Anti-I antibodies were identified. Further studies are required to clarify the pathophysiology of CA in COVID-19.

Successful treatment of refractory cold hemagglutinemia in MYD88 L265P mutation-negative Waldenström's macroglobulinemia with bortezomib.

We report here the successful treatment of cold agglutinin-associated refractory hemolysis with bortezomib in a patient with Waldenström's macroglobulinemia (WM). A 78-year-old man was referred to our hospital with cold hemagglutinemia of unknown cause. Laboratory examination revealed a hemoglobin concentration of 6.9 g/dL, serum IgM concentration of 1904 mg/dL, and a titer of cold hemagglutinin of over ×8192. Serum immunoelectrophoresis demonstrated monoclonal protein of the IgM-κ type. A bone marrow aspirate showed many lymphoplasmacytic cells, which were positive for CD19, CD20, CD38, and cytoplasmic µ and κ light chains. A diagnosis of WM-associated cold hemagglutinemia was made. Because of red blood cell transfusion-dependency, we treated him with intravenous fludarabine, oral melphalan-prednisolone, cyclophosphamide, and melphalan, and two courses of R-CHOP in sequence with a marked decrease of serum IgM (928 mg). We then started weekly bortezomib plus dexamethasone (BD) therapy, as he was still transfusion-dependent. Soon after the initiation of BD, he achieved transfusion independence, with a further decrease in serum levels of IgM and marked improvement of anemia. Interestingly, his marrow abnormal lymphocytes were later found not to carry the MYD88 L265P mutation. The successful treatment with bortezomib for WM lacking this mutation is discussed.