IgM paraprotein-associated peripheral neuropathy: small CD20-positive B-cell clones may predict a monoclonal gammopathy of neurological significance and rituximab responsiveness

IgM paraprotein‐associated peripheral neuropathy (PN) in patients without overt evidence of lymphoma is a recognised clinical entity of unknown aetiology. Interrogating the bone marrow B‐cell or plasma cell clones underlying paraproteinemic neuropathies may improve our understanding of both pathogenesis and treatment options. This retrospective observational analysis of IgM paraprotein‐associated PN identified five patients with small pathological MYD88 L265P and CD20‐positive B‐cell clones in their bone marrow using multi‐parametric flow cytometry, who have shown durable neurological response to rituximab. We posit that multi‐parametric flow cytometry may be instrumental in identifying the cellular source of the paraprotein in IgM paraprotein‐associated PN, and thus directing appropriate immunomodulatory therapy. Further understanding of these small pathological B‐cell clones may also provide additional insight into mechanisms of monoclonal gammopathy of clinical significance overall

IgM paraprotein‐associated peripheral neuropathy: small CD20‐positive B‐cell clones may predict a monoclonal gammopathy of neurological significance and rituximab responsiveness

IgM paraprotein‐associated peripheral neuropathy (PN) in patients without overt evidence of lymphoma is a recognised clinical entity of unknown aetiology. Interrogating the bone marrow B‐cell or plasma cell clones underlying paraproteinemic neuropathies may improve our understanding of both pathogenesis and treatment options. This retrospective observational analysis of IgM paraprotein‐associated PN identified five patients with small pathological MYD88 L265P and CD20‐positive B‐cell clones in their bone marrow using multi‐parametric flow cytometry, who have shown durable neurological response to rituximab. We posit that multi‐parametric flow cytometry may be instrumental in identifying the cellular source of the paraprotein in IgM paraprotein‐associated PN, and thus directing appropriate immunomodulatory therapy. Further understanding of these small pathological B‐cell clones may also provide additional insight into mechanisms of monoclonal gammopathy of clinical significance overall