Background: Bing-Neel syndrome (BNS) is a rare complication of lymphoplasmacytic lymphoma (LPL) comprising LPL infiltration in the central nervous system (CNS). Clinical and radiological features are diverse; the diagnosis is confirmed by cerebrospinal fluid (CSF) analysis using immunological and molecular techniques. Rarely, a tissue biopsy is required. The pattern of presentation including systemic involvement and CSF features inform treatment strategies, which include CNS-penetrating therapies. Aims: To evaluate the diagnostic characteristics of patients with BNS and their influence on therapy. Methods: Data from patients referred between 2011-2021 for management of BNS to our academic neurohaematology centre were retrospectively reviewed. Those with imaging features alone or where it was not possible to distinguish from high-grade transformation were excluded. Results: Thirty-five patients (22 male, 13 female) were identified. Median age at diagnosis of BNS was 65 years (range 48-85). All patients were symptomatic. In 12 patients (34%) BNS was the de novo presentation of the IgM-related disorder, of which 3 (25%) had no detectable bone marrow (BM) infiltration of LPL at diagnosis. Approximately half (17; 49%) had previously received therapy for LPL; median time to BNS diagnosis in these was 49 months (range 3-125). At BNS diagnosis, BM involvement with LPL ranged from 0-95%. More than half (14/26; 54%) had ≤10% infiltrate and almost a fifth (4/26) >60%. All patients had leptomeningeal involvement and 8 (23%) additionally had parenchymal CNS disease. The majority had kappa light-chain predominance: IgMκ (n=26), non-IgMκ (n=5), IgMλ (n=3), one unknown. The BNS diagnosis was made on CSF analysis (n=28; 80%), leptomeningeal tissue biopsy (n=3; 9%) where CSF was non-informative, or by expert opinion based on supportive clinical, radiological and non-definitive CSF features (n=4; 11%). Of those with a diagnosis based on CSF studies, B-cell clonality was confirmed by flow cytometry (27/28; 96%), MYD88L265P mutation (18/28; 64%) and immunoglobulin gene rearrangement (12/28; 43%). In 22 samples with a full dataset, median CSF white cell count was 25/ul (1-233), CSF protein 1.69g/l (0.35-6), CSF IgM 9.49mg/l (1.07-61.5). The majority were treated with intensive regimens (rituximab, methotrexate (MTX), cytarabine (ARA-C) ± thiotepa/idarubicin; n=30) due to the presence of CNS disease bulk and clinical need, and less commonly ibrutinib (n=3), bendamustine-rituximab (BR, n=1); one patient had intrathecal therapy (MTX, ARA-C) at the height of the COVID pandemic. Of those who received 2 cycles of intensive chemotherapy, 3 had ≥4 cycles followed by BCNU/thiotepa autologous stem cell transplant; 10 proceeded to ‘consolidation’ (indefinite) ibrutinib to limit intensive chemotherapy or tackle systemic disease. At a median follow up of 26 months (range 1-121), median survival was not reached; 2-year overall survival was 91% (95% CI 74-97). Three patients died during treatment (1 invasive fungal infection post COVID-19 during ibrutinib consolidation post MTX/ARA-C based therapy) and 2 during MTX-ARA-C based therapy; 7 patients relapsed or progressed and were treated with ibrutinib: 1 relapsed after ibrutinib use, 1 patient was intolerant of ibrutinib and switched to BR. Image:Summary/Conclusion: Our cohort confirms that BNS may present with leptomeningeal disease and/or parenchymal disease, de novo and without systemic disease. Overall outcomes are excellent with intensive regimens, consolidated with or followed by ibrutinib; however, there are treatment-related toxicities emphasising the need for a tailored approach.