This Study Aims to Clarify the Prevalence and Characteristics of Neuropathy, Along With Associated Paraclinical Findings in Patients With Waldenström's Macroglobulinemia (WM) in a Cohort of WM Patients to Optimize the Diagnostic Process

Overview

Neuropathy severely reduces patients' quality of life due to sensory loss, chronic neuropathic pain, and loss of mobility of arms and legs. Given the diverse origins of neuropathy, it is critical to identify its specific causes, particularly when effective treatments are available. Neuropathy is a frequent morbidity in Waldenström's macroglobulinemia (WM), a specific type of lymphoma caused by infiltration of clonal lymphoplasmocytic B cells in the bone marrow with the presence of IgM paraprotein. WM associated neuropathy is largely undescribed. The few existing studies are mostly retrospective indicating the neuropathy has a heterogenic pathophysiology and diverse clinical appearance from mild sensory neuropathy to aggressive with loss of ambulation and development of chronic neuropathic pain within weeks to months. With treatment of WM the speed of the disease progression including the related neuropathy can be halted. Few studies and clinical experience indicate that the nerve damage induced by WM might remit if treatment is initiated early in the course of the disease. Thus, there is need for timely interventions to reduce chronic disabilities. However, even for an experienced neurologist, it can be difficult to identify whether the neuropathy is caused by WM or other causes where treatment is not indicated. This project aims to investigate the prevalence and underlying mechanisms of neuropathy in patients with WM to help speed up the diagnostic process and thus help slow down the irreversible nerve damage that these patients experience.

Methods Study design: Cross-sectional observations study Outcome: Prevalence: Determining how many WM patients have neuropathy. Characterization: Identification of clinical subtypes of WM associated neuropathy and their symptoms. Biomarkers: Establishing relevant biomarkers (e.g., neurofilament light chain) to diagnose and predict neuropathy outcome. We have already identified all patients with an active diagnosis of Waldenström Macroglobulinemia followed at the Department of Haematology at Rigshospitalet in august 2024. All patients have been screened with a questionnaire designed to identify signs of neuropathy. If probable symptoms of neuropathy the patients will be examined in the Department of Neurology. Almost 600 patients has been invided. 100 patients have symptoms fulfilling the criteria for probable neuropathy. With expect 90 patients patients in total to undergo clinical examination. Neuropathy will be clinically classified and confirmed with a nerve conduction study (ENG). Patient with neuropathy associated to WM will be further investigated with blood samples and lumbar puncture. The study duration will be one year, where we expect all participants to have gone through questionnaire, clinical examination, nerve conduction study and paraclinical tests. The follow up period will be for 3 years. Clinical examination will be done by the responsible investigator Morten Müller Aagaard, MD. Methodes include: 1. Clinical examination Neurological examination by a trained physician within the field of neuropathy. 2. Nerve conduction study (ENG) Paraclinical test of the sensory- and motornerves of the peripheral nervous system. 3. Questionnaires: I-RODS, FES-I, COMPASS 31, FSS and 5Q-5D 4. Blood samples The blood samples will be analysed with a standard polyneuropathy panel (liver, blood sugar/diabetes, kidney and hematologic markers e.g. interleukin-6, immunoglobulin A, G and M, kappa/lambda-chains and M-protein). Additionally the samples will be analysed for paraneoplastic antibodies, marker of neurodegenerative processes (e.g. neurofilament), rheumatologic markers (SSA, SSB, cryoglobulin, SR), and infection disorders as hepatitis b + c antibodies and HIV. In collaboration with department of immunology we also want to examine samples for complement activity and inflammation markers including cytokines. Whole genome squencing (WGS) for inherited neuropathies. 5. Cerebrospinal fluid Cerebrospinal fluid will be examined with standard tests (erythrocytes, leucocytes, glucose, protein, neurofilament light polypeptide, borrelia, flowcytometry, cytology, and CXCL13) The study duration will be 1 year with extra follow up for 3 years. Statistics The study is designed as a cross-sectional observation study describing WM associated neuropathy. The prevalence of neuropathy associated to WM will be estimated. Non-responders will be classified as missing data at random. In addition, sensitivity analyses will be conducted where the prevalence of neuropathy in non-responders will be varied within reasonable range and combined with information from the responders. Data will be processed using standard descriptive statistics, comparing results with normative reference values. Differences between WM patients and normal material will be analysed using t-tests, with p-values \<0.05 considered statistically significant. The types of neuropathies, defined through electrophysiological and clinical phenotypes will undergo subgroup analyses based on group sizes. Statistical differences in clinical outcomes and biomarkers will be examined using ANOVA tests. Impact 1. Clinical Understanding Enhanced Knowledge: The study will improve understanding of the prevalence, types, and pathophysiology of neuropathy associated with WM, leading to better recognition of the condition among healthcare providers. Treatment Guidelines: Establish clinical markers that may contribute to initiating or intensifying treatment for neuropathy associated with WM. 2. Patient Management Improved Diagnosis: Identification of specific biomarkers and clinical indicators will facilitate earlier and more accurate diagnoses of neuropathy, allowing for timely intervention. Optimal Monitoring: Contributing to better surveillance and management of WM regarding development of neuropathy in clinical practice. Tailored Treatments: Insights into which patients are likely to benefit from specific treatments can lead to studies about more personalized and effective treatment strategies. 3. Quality of Life Functional Preservation: Addressing neuropathy early will lead to more rapid interventions both treatment and focus on the disabilities. Thus, patients may experience better maintenance of their mobility and daily functioning, thereby improving their overall quality of life.