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Marginal zone lymphoma

Marginal zone lymphoma (MZL) is a rare, indolent form of characterized by the slow proliferation of mature B-lymphocytes originating in the marginal zone of lymphoid tissues, such as lymph nodes, , or extranodal sites. It represents approximately 7-10% of all and has an age-adjusted incidence rate of about 1.96 cases per 100,000 person-years in the United States (based on 2001-2017 data, with incidence increasing ~1% annually). MZL is heterogeneous, with three primary subtypes defined by anatomical location: extranodal marginal zone lymphoma (EMZL, also called or , comprising approximately 60% of cases), nodal marginal zone lymphoma (NMZL, approximately 30%), and (SMZL, approximately 10%). EMZL often arises in mucosal sites like the stomach (associated with infection) or other organs such as the salivary glands, lungs, or ocular , while SMZL primarily involves the with possible extension to the and peripheral blood, and NMZL presents with generalized . Risk factors include chronic infections (e.g., for gastric MALT, hepatitis C for splenic and nodal types), autoimmune disorders (e.g., Sjögren's syndrome, ), and immune dysregulation, though the exact etiology remains multifactorial. Common symptoms depend on the subtype and site of involvement but may include painless , , , , , or site-specific issues like gastric ulcers in ; many cases are asymptomatic and discovered incidentally. Diagnosis typically involves with histopathological examination, (e.g., +, CD5-), , and molecular studies to confirm marginal zone origin and exclude other s; staging uses the Ann Arbor system with modifications like the criteria, and prognostic tools such as the MALT-IPI assess factors including age over 70, elevated LDH, and advanced stage. Treatment strategies vary by subtype, stage, and symptoms: early-stage localized disease may be managed with or radiotherapy, while H. pylori-associated gastric often responds to antibiotic eradication (achieving remission in up to 75% of cases); advanced or symptomatic MZL is treated with rituximab-based chemoimmunotherapy (e.g., rituximab plus bendamustine), targeted therapies like or for relapsed/refractory cases, or for SMZL. Prognosis is generally favorable for this , with 5-year relative survival rates of approximately 94% for EMZL, 83% for NMZL, and 85% for SMZL; however, risks include to aggressive (cumulative incidence of 5-8% at 5-10 years) and secondary malignancies.

Overview

Definition and classification

Marginal zone lymphoma (MZL) is a heterogeneous group of indolent B-cell s that originate from post-germinal center marginal zone B cells located in the lymphoid follicles of the , lymph nodes, and extranodal tissues. These lymphomas are characterized by their slow progression and typically favorable compared to more aggressive B-cell malignancies. MZL accounts for approximately 7-10% of all non-Hodgkin lymphoma cases worldwide. The (WHO) classification recognizes three primary subtypes of MZL, each defined by its predominant anatomical site of involvement. Extranodal MZL, also known as (MALT) lymphoma, constitutes the most common form (about 50-70% of cases) and arises in mucosal sites such as the , salivary glands, ocular adnexa, and lungs, often associated with chronic antigenic stimulation. Splenic MZL (approximately 20% of cases) primarily affects the , with frequent involvement of the and peripheral blood, presenting as and cytopenias. Nodal MZL (around 10% of cases) is confined to lymph nodes without evidence of splenic or extranodal disease and is the least common subtype. The 2022 WHO revision maintains these core subtypes while introducing refinements, such as recognizing pediatric nodal MZL as a distinct provisional entity. Historically, MZL entities were first described in the 1980s, with extranodal reported in 1983 as a distinct low-grade linked to chronic . The concept was formalized in the Revised European-American (REAL) classification in 1994, which unified marginal zone-derived lymphomas under a single category. Subsequent WHO classifications in 2008, 2016, and 2022 have iteratively updated diagnostic criteria based on evolving morphological, immunophenotypic, and genetic insights. MZL is differentiated from other indolent B-cell lymphomas, such as and , primarily through its unique morphology—featuring small- to medium-sized lymphocytes with irregular nuclei, pale , and monocytoid or lymphoplasmacytic features—and immunophenotype, which shows surface immunoglobulin positivity, expression, and negativity for CD5, CD10, and cyclin D1. These features help distinguish MZL's marginal zone origin from the derivation of or the mantle zone pattern of .

Epidemiology

Marginal zone lymphoma (MZL) accounts for approximately 7-10% of all non-Hodgkin lymphomas (NHL) worldwide. The global age-standardized incidence rate is estimated at 2-3 cases per 100,000 person-years, with variations across regions; for instance, rates range from approximately 2.0 per 100,000 (as of data 2001-2021) to higher figures in parts of such as the (2.6 per 100,000). Among MZL subtypes, extranodal MZL (EMZL), particularly mucosa-associated lymphoid tissue (MALT) lymphoma, is the most prevalent, comprising about 70% of cases, followed by splenic MZL (approximately 20%) and nodal MZL (around 10%). Data from the Surveillance, Epidemiology, and End Results () program indicate that MZL represents 7-8% of all NHL diagnoses . The disease predominantly affects older adults, with a median age at of 65-70 years and the majority of cases occurring in individuals over 60. It is rare in children and young adults, though nodal MZL can occasionally present in pediatric populations. There is a slight female predominance overall, with a female-to-male ratio of approximately 1.2:1, though this varies by subtype; for example, EMZL often shows a stronger female bias, while splenic and nodal forms may have more balanced or slight male skews. Geographic variations influence subtype distribution, with higher rates of gastric MALT lymphoma observed in regions endemic for infection, such as parts of and . In contrast, splenic MZL appears more common in populations. Incidence is generally higher among non- White individuals compared to other racial/ethnic groups, with rates of about 2.1 per 100,000 versus 1.5-1.8 per 100,000 in , , and groups in the United States. Incidence trends have remained relatively stable since the early 2000s, though improved diagnostic techniques have led to increased recognition and reporting. , data from 2001-2017 show an annual increase of about 1% in age-adjusted rates, reflecting better classification rather than a true rise in occurrence.

Etiology and risk factors

Chronic infections

Chronic infections play a significant role in the of certain marginal zone lymphomas (MZL), particularly extranodal variants, by providing persistent antigenic stimulation that drives B-cell proliferation and lymphomagenesis. These associations are most evident in (MALT) lymphomas, where eradication of the infectious agent often leads to tumor regression, underscoring the antigen-driven nature of the disease. Among these, infection is the most strongly linked to gastric , serving as the primary cause in 70-90% of cases. The bacterium induces chronic , which fosters lymphoid tissue acquisition in the and subsequent clonal B-cell expansion through antigenic stimulation. Eradication of H. pylori with antibiotics results in complete remission in a substantial proportion of early-stage cases, confirming its causal role. Hepatitis C virus (HCV) infection is associated with 20-35% of splenic and extranodal MZLs in high-prevalence regions such as , with lower rates in and elsewhere; advancing antiviral therapies have reduced prevalence as of 2025. The virus promotes lymphoproliferation via immune activation, and viral clearance through antiviral frequently induces . This link highlights HCV's role in driving B-cell malignancies beyond the liver. Other bacterial infections show geographic-specific associations with MZL subtypes. is implicated in up to 87% of ocular adnexal MALT lymphomas in Mediterranean regions, such as , where antibiotic eradication can lead to partial or complete tumor regression. Similarly, infection is linked to cutaneous MZL in , with evidence of lymphoma arising from chronic skin stimulation by the spirochete and remission following antibiotic treatment. In the , is associated with immunoproliferative small intestinal disease (IPSID), a MALT lymphoma variant, where chronic enteric infection drives the neoplastic process and responds to targeted antibiotics. The underlying mechanism across these infections involves sustained antigenic drive, leading to marginal zone B-cell clonal expansion and eventual . This process is supported by observations of lymphoma regression upon pathogen eradication, which interrupts the chronic immune stimulation.

Autoimmune conditions

Autoimmune conditions are strongly associated with the development of marginal zone lymphoma (MZL), primarily through chronic inflammation and persistent B-cell stimulation that can progress to . Among these, Sjögren's syndrome exhibits the most pronounced link, particularly to extranodal lymphomas in the salivary glands and lungs, where the risk is elevated 16- to 44-fold compared to the general population. This association arises from intense lymphocytic infiltration in affected tissues, which often resembles early lymphomatous changes and complicates differentiation between benign autoimmunity and malignancy. Hashimoto's thyroiditis is closely linked to primary thyroid MZL, with approximately 70% of such cases occurring in the context of this autoimmune thyroid disorder, featuring shared histopathological patterns of dense lymphoid aggregates and follicular destruction. The chronic autoimmune attack on thyroid tissue fosters a microenvironment conducive to B-cell proliferation and genetic instability, mirroring the inflammatory milieu seen in other MZL subtypes. Other autoimmune diseases, including systemic lupus erythematosus (SLE) and rheumatoid arthritis (RA), confer a 2- to 3-fold increased risk for nodal and splenic MZL subtypes. In SLE, this elevated risk is particularly noted for marginal zone and diffuse large B-cell lymphomas, driven by systemic immune dysregulation. Similarly, RA contributes through joint and , with studies indicating a modest but consistent hazard for indolent B-cell lymphomas like MZL. , often IgG or IgM type, occurs in 20-30% of patients with these conditions, serving as a precursor marker that heightens lymphoma susceptibility. The shared mechanisms underlying these associations involve persistent autoantigen stimulation, which sustains B-cell activation and survival signals, coupled with dysregulated immune responses that impair and promote clonal expansion toward malignancy. In some instances, autoimmune-driven may synergize with chronic infections to amplify lymphomagenesis risk.

Genetic and environmental factors

Familial predisposition to marginal zone lymphoma (MZL) is rare, with first-degree relatives of (NHL) patients exhibiting approximately a 1.7-fold increased compared to the general . Familial clustering occurs in about 2-3% of cases, often linked to shared genetic susceptibility rather than direct inheritance. In rare hereditary instances, in genes such as have been reported in patients with primary cutaneous MZL, highlighting a potential role in DNA damage response pathways. Similarly, pathogenic variants in TP53, a key , have been associated with elevated , including subtypes like MZL, though such cases are exceptional and not specific to MZL pathogenesis. Environmental exposures contribute to MZL , particularly among agricultural workers. Occupational exposure to pesticides, including non-arsenic types, is linked to increased incidence, with farmers showing a higher due to chronic contact. Solvents, especially chlorinated hydrocarbons like and , demonstrate associations with MZL, with odds ratios of 1.5-2.0 for high exposure levels. from atomic bombs has been associated with elevated NHL risk overall, including extranodal forms, though specific dose-response evidence for MZL remains limited and inconsistent among mature B-cell neoplasms. Immunosuppression elevates MZL risk, albeit less commonly than for other NHL subtypes. Post-transplant lymphoproliferative disorders include MZL with a standardized incidence ratio (SIR) of 2.2, particularly the mucosa-associated lymphoid tissue (MALT) variant (SIR 2.8), based on large cohort data from solid organ recipients. In HIV-infected individuals, MZL risk is increased (SIR 2.4), attributed to chronic immune dysregulation rather than profound immunodeficiency. Iatrogenic immunosuppression from methotrexate in autoimmune conditions, such as rheumatoid arthritis or Sjögren syndrome, can induce MZL as part of other iatrogenic immunodeficiency-associated lymphoproliferative disorders, often regressing upon drug withdrawal. Demographic factors influence MZL incidence, with higher rates observed in certain ethnic groups potentially due to genetic predispositions.

Pathogenesis

Cellular origin and histopathology

Marginal zone lymphoma (MZL) originates from post-germinal center memory B cells that reside in the marginal zone surrounding lymphoid follicles. These neoplastic cells morphologically resemble normal marginal zone B cells, often appearing as monocytoid B cells with abundant pale or centrocyte-like cells with irregular nuclear contours. This cellular derivation is supported by the presence of hypermutations in the immunoglobulin genes, indicative of antigen-driven selection in the followed by differentiation into memory cells. Histopathologically, MZL is characterized by infiltrates of small to medium-sized lymphocytes with irregular, cleaved nuclei and moderate to abundant pale , forming nodular or diffuse growth patterns that expand the marginal zones of lymphoid tissues. In extranodal MZL, particularly , a hallmark feature is the presence of lymphoepithelial lesions, where lymphoma cells invade and destroy epithelial structures. In contrast, nodal and splenic MZLs frequently exhibit follicular colonization, with neoplastic cells surrounding or infiltrating reactive germinal centers without effacing them entirely. Plasmacytic differentiation is observed in approximately 30-40% of MZL cases, often accompanied by the production of an IgM paraprotein, which contributes to the tumor's indolent behavior but can lead to associated symptoms like hyperviscosity in rare instances. Distinguishing MZL from reactive marginal zone relies on demonstrating monoclonality, typically confirmed by immunoglobulin light chain restriction in the neoplastic B cells, which is absent in polyclonal reactive processes.

Molecular and genetic alterations

Marginal zone lymphoma (MZL) is characterized by a range of recurrent cytogenetic abnormalities that contribute to its , primarily through dysregulation of the nuclear factor kappa B () signaling pathway. Trisomy 3, observed in 20–50% of cases across MZL subtypes, is considered one of the earliest genetic events and leads to the activation of by upregulating genes involved in B-cell survival and proliferation. This abnormality is particularly prevalent in extranodal MZL, where it often co-occurs with other alterations to promote lymphomagenesis. Recurrent chromosomal translocations in MZL typically involve the (IGH) locus at 14q32 and genes encoding components of the pathway, resulting in their deregulation. The t(11;18)(q21;q21) translocation, which generates the , is found in 20–50% of gastric MZL cases and activates through oligomerization and stabilization of MALT1, thereby enhancing lymphoma cell survival. This fusion is associated with resistance to eradication therapy in gastric MZL, as it renders the lymphoma of antigenic stimulation. Other notable translocations include t(14;18)(q32;q21), present in 10–20% of cases (predominantly non-gastric extranodal sites), which juxtaposes IGH with MALT1 to cause its overexpression and constitutive activation; t(3;14)(p13;q32), occurring in approximately 10% of MZL and leading to FOXP1 deregulation, which represses proapoptotic genes and further amplifies signaling; and the rarer t(1;14)(p22;q32), detected in 1–2% of cases, resulting in BCL10 nuclear overexpression and pathway stimulation. Somatic in MZL are less frequent than in other B-cell lymphomas but target key pathways such as and epigenetic regulation. The MYD88 L265P mutation, which enhances activation via signaling, occurs in 5–10% of MZL cases overall, with higher prevalence in nodal and splenic subtypes compared to extranodal forms. Additional , such as those in TNFAIP3 (A20), are seen in 8–15% of splenic and nodal MZL, leading to loss of inhibition and increased pathway activity. Recurrent also include NOTCH2 (particularly in splenic MZL, 20-30%), KLF2 (20-40% in splenic and nodal MZL), and PTPRD (in nodal MZL), contributing to disrupted B-cell signaling and survival. Unlike other indolent lymphomas, MZL lacks recurrent translocations involving BCR-ABL or , which helps distinguish it from and , respectively. Epigenetic alterations, including DNA hypermethylation, contribute to MZL progression by silencing tumor suppressor genes. For instance, hypermethylation of the TNFAIP3 promoter is reported in up to 19% of ocular adnexal MZL cases, correlating with dysregulation and poorer prognosis. FOXP1 epigenetic silencing through hypermethylation has also been implicated in some MZL subsets, reinforcing its role in B-cell survival alongside genetic deregulation. Subtype-specific genetic features further highlight the heterogeneity of MZL. In splenic MZL, recurrent deletions at 7q (in ~30% of cases) target genes involved in B-cell signaling. These cases may be associated with (HCV) infection, where chronic viral infection drives lymphomagenesis through sustained activation, and HCV-associated SMZL often regresses with antiviral therapy.

Diagnosis and staging

Clinical presentation

Marginal zone lymphoma (MZL) is generally an indolent B-cell , often presenting asymptomatically or discovered incidentally during for unrelated conditions. B-symptoms, including fever, , and unexplained , occur in fewer than 20% of cases, typically in more advanced nodal or splenic subtypes. Common manifestations vary by subtype. Nodal MZL frequently involves peripheral or abdominal , leading to painless swelling in the , , or . Splenic MZL is characterized by in nearly all patients (80-90%), which may cause abdominal discomfort, early , or . Extranodal MZL, the most common form, presents with site-specific symptoms such as epigastric pain, , or in gastric involvement; ocular , dryness, or swelling in adnexal disease; or cough and dyspnea in pulmonary cases. Cytopenias, including and , arise from infiltration or splenic sequestration and affect approximately 25% of patients, particularly in splenic and advanced nodal subtypes. Laboratory findings often include , predominantly IgM type, in 20-40% of cases, more frequently in splenic MZL. Elevated (LDH) may indicate advanced disease. Autoimmune phenomena, such as or , occur in about 20% of splenic MZL cases. Paraneoplastic syndromes are rare but can include or in isolated reports, primarily associated with splenic involvement.

Diagnostic procedures

Diagnosis of marginal zone lymphoma (MZL) requires a multidisciplinary approach involving histopathological examination, , and to confirm the presence of neoplastic B-cells originating from the marginal zone and to differentiate it from other indolent lymphomas. A tissue biopsy is the cornerstone of , as it provides essential morphological and immunohistochemical data. Biopsy procedures are tailored to the suspected site of involvement, with excisional or core needle biopsies preferred over (FNA) because FNA often fails to preserve the architectural features necessary for accurate subtyping and ruling out mimics like reactive . For extranodal MZL (EMZL), such as gastric , endoscopic is standard, often combined with testing for associated infections like . In nodal MZL (NMZL), excision is ideal, while for splenic MZL (SMZL), or splenic may be considered, though peripheral blood and bone marrow evaluation can suffice in many cases. All biopsies should be reviewed by an expert hematopathologist to ensure diagnostic precision. Flow cytometry on fresh tissue, blood, or samples is crucial for the neoplastic cells, which typically express pan-B-cell markers including , , and surface immunoglobulin (often IgM with or without IgD), while lacking CD5 (though low expression occurs in a subset of NMZL), CD10, and CD23. Positive FMC7 expression further supports MZL and helps distinguish it from (CLL), which is usually FMC7-negative. Additional markers like CD27 positivity may be seen in SMZL. Imaging plays a supportive role in identifying disease sites and guiding biopsies, though MZL often exhibits low fluorodeoxyglucose (FDG) avidity on , limiting its sensitivity for indolent forms compared to more aggressive lymphomas. Despite this, is recommended for initial in FDG-avid cases, particularly EMZL, and can detect extranodal involvement; contrast-enhanced CT or MRI is used for site-specific evaluation, such as orbits or in ocular adnexal MZL. Bone marrow aspiration and are routinely performed to assess for involvement, which occurs in approximately 20-30% of cases at overall, though rates vary by subtype (e.g., ~90% in SMZL, ~20% in EMZL). In SMZL, involvement often shows a characteristic intrasinusoidal pattern alongside nodular or interstitial growth, aiding differentiation from other B-cell neoplasms. Molecular studies, such as for immunoglobulin gene rearrangements, may complement these procedures but are not diagnostic in isolation.

Staging and prognostic tools

Staging of marginal zone lymphoma (MZL) assesses the extent of disease to guide management, with systems varying by subtype. For nodal and splenic MZL, the criteria, a modification of the Ann Arbor staging system, are commonly used; these classify disease as stage I (involvement of a single region or lymphoid structure), stage II (two or more regions on the same side of the ), stage III (involvement on both sides of the or splenic hilar nodes), or stage IV (diffuse or disseminated involvement of one or more extranodal organs, such as ). In contrast, for gastric extranodal MZL of (MALT), the staging system, based on TNM classification, evaluates tumor penetration depth, nodal involvement, and distant spread; stage I indicates confinement to the mucosa or , stage II involves the muscularis propria or regional nodes, stage III penetrates the serosa or extends to distant abdominal nodes, and stage IV includes invasion of adjacent structures, extra-abdominal dissemination, or involvement. Prognostic indices help predict outcomes in MZL by incorporating clinical and laboratory factors. The (IPI), originally for aggressive lymphomas, has been adapted for MZL through the MZL-IPI, which includes elevated , (hemoglobin <12 g/dL), lymphocytopenia (absolute lymphocyte count <1 × 10⁹/L), thrombocytopenia (platelets <100 × 10⁹/L), and nodal or disseminated subtype; scores of 0 (low risk), 1-2 (intermediate), or ≥3 (high) correlate with 5-year progression-free survival rates of 91%, 73%, and 43%, respectively, applicable across all MZL subtypes requiring systemic therapy. For extranodal MZL, the MALT-IPI simplifies risk stratification using three factors—age ≥70 years, advanced Ann Arbor stage (III/IV), and elevated —assigning low (0 factors), intermediate (1 factor), or high (≥2 factors) risk groups with 5-year event-free survival of 70%, 56%, and 29%, respectively. The Follicular Lymphoma International Prognostic Index (FLIPI) is not ideal for MZL due to its design for a more aggressive indolent lymphoma and lack of validation in MZL cohorts. Additional prognostic tools include cytogenetic analysis and minimal residual disease (MRD) monitoring. The t(11;18)(q21;q21) translocation, detected in about 25% of MALT lymphomas, is associated with poorer progression-free survival (10-year rate of 26% versus 57% in negative cases) and resistance to Helicobacter pylori eradication, though it does not significantly impact overall survival. MRD assessment via polymerase chain reaction (PCR) targeting immunoglobulin heavy chain (IGH) rearrangements enables sensitive detection in bone marrow or peripheral blood, showing promise for monitoring treatment response in splenic MZL and other indolent non-Hodgkin lymphomas, including early relapse prediction. Overall 5-year survival for MZL is approximately 88.7%, with rates varying by subtype: 88.7% for extranodal, 76.5% for nodal, and 79.7% for splenic MZL (SEER data as of 2023).

Extranodal marginal zone lymphoma

General pathophysiology and features

Extranodal marginal zone lymphoma (EMZL), also known as mucosa-associated lymphoid tissue (MALT) lymphoma, represents the most common subtype of marginal zone lymphomas, accounting for 50-70% of all cases. It typically arises in extranodal sites rich in lymphoid tissue, particularly those associated with mucosal surfaces, where chronic antigenic stimulation from infectious pathogens or autoimmune processes drives the neoplastic proliferation of post-germinal center B cells. This antigen-driven pathogenesis is a hallmark, leading to the accumulation of small B lymphocytes that mimic reactive marginal zone cells, often in the context of underlying chronic inflammation. The disease often remains localized initially, reflecting its origin in response to site-specific antigens, but dissemination can occur, with 20-30% of cases presenting as multifocal at diagnosis and bone marrow involvement seen in 10-20% of patients overall. In early-stage disease linked to identifiable pathogens, such as Helicobacter pylori in gastric cases, eradication of the infectious agent can induce regression in 60-80% of instances, underscoring the reversible nature of the lymphoproliferation in antigen-dependent phases. However, a subset progresses to more aggressive forms, with transformation to (DLBCL) occurring with a cumulative incidence of approximately 5-8% at 5-10 years, often associated with acquisition of additional genetic hits that abrogate antigen dependence. Histologically, EMZL is characterized by a heterogeneous population of small to medium-sized neoplastic B cells, including monocytoid, lymphoplasmacytoid, and centrocyte-like cells, with frequent plasmacytoid differentiation. The typical immunophenotype includes positivity for and , along with BCL2 expression, while cyclin D1 is negative, helping to distinguish it from other small B-cell lymphomas. This profile reflects the post-germinal center origin and marginal zone differentiation of the tumor cells.

Diagnosis and histopathology

Diagnosis of extranodal marginal zone lymphoma (EMZL) relies on site-specific biopsy procedures combined with histopathological, immunohistochemical, and molecular analyses to distinguish it from reactive lymphoid proliferations or other low-grade B-cell lymphomas. For gastrointestinal involvement, particularly gastric EMZL, endoscopic biopsy is the gold standard, allowing assessment of mucosal architecture and epithelial interactions. In ocular adnexal cases, biopsy targets the lacrimal gland, conjunctiva, or orbital soft tissue, often guided by imaging such as MRI to ensure adequate sampling. These procedures provide sufficient tissue for comprehensive evaluation, as EMZL often presents with subtle morphological changes that require multiple sections for detection. Histopathologically, EMZL features a heterogeneous infiltrate of small to medium-sized B cells with centrocyte-like, monocytoid, or lymphoplasmacytic morphology, often colonizing reactive germinal centers and expanding interfollicular areas. A defining characteristic is the presence of lymphoepithelial lesions, where neoplastic cells form invasive aggregates that partially destroy epithelial glands or crypts, most prominent in gastric and pulmonary sites but variable in other locations. Reactive follicles with marginal zone differentiation are commonly observed, and plasmacytic differentiation occurs in approximately one-third of cases. Immunohistochemistry reveals expression of pan-B-cell antigens including CD19, CD20, CD22, and CD79a, with frequent BCL2 positivity and partial co-expression of CD43 in about 50% of cases. The neoplastic cells are typically negative for CD5, CD10, CD23, cyclin D1, and BCL6, helping to exclude mantle cell or follicular lymphoma. Light chain restriction, demonstrable by immunohistochemistry or flow cytometry, supports B-cell clonality, while the Ki-67 proliferation index is low, reflecting the indolent nature of the disease. Molecular confirmation involves polymerase chain reaction (PCR) analysis for immunoglobulin heavy chain (IGH) gene rearrangements using standardized protocols like BIOMED-2, which detects monoclonality in the majority of cases. Fluorescence in situ hybridization (FISH) identifies recurrent chromosomal translocations, such as t(11;18)(q21;q21) API2-MALT1, present in 20-35% of EMZL depending on the site, and t(14;18)(q32;q21) IGH-MALT1 in about 15%. Trisomies of chromosomes 3 and 18 are also common, occurring in 20-30% of cases, and contribute to diagnostic refinement per WHO criteria.

Treatment approaches

Treatment approaches for extranodal marginal zone lymphoma (EMZL) are tailored to the disease stage, site of involvement, symptoms, and underlying etiological factors, with an emphasis on curative intent for localized disease and symptom control for advanced cases. For asymptomatic patients with low-burden or advanced-stage disease, a watch-and-wait strategy is often appropriate, as progression rates remain low (approximately 5% over 3-4 years in selected cohorts). This approach is supported by both NCCN and ESMO guidelines, which recommend observation for indolent presentations without immediate threat. Localized therapy is the cornerstone for stage I/II EMZL, particularly when the disease is confined to a single extranodal site. Involved-site radiotherapy (ISRT) at doses of 24-30 Gy achieves high complete response rates (96-100%) and potential cure in 70-90% of cases, making it the preferred option for non-gastric sites or H. pylori-negative gastric disease. For gastric EMZL associated with Helicobacter pylori infection (present in up to 90% of cases), initial treatment involves eradication therapy using antibiotics (e.g., clarithromycin and amoxicillin) combined with a proton pump inhibitor, yielding lymphoma regression in 70-95% of localized, H. pylori-positive cases. Response is assessed via endoscopy 3 months post-therapy, with restaging to confirm remission. Systemic therapy is reserved for advanced-stage (III/IV), symptomatic, or relapsed/refractory EMZL, prioritizing anti-CD20 monoclonal antibodies as first-line due to the indolent nature and CD20 expression on malignant cells. Rituximab monotherapy induces overall responses in approximately 70-73% of patients (with 46-50% complete responses), particularly in chemotherapy-naïve cases, and is recommended by NCCN and ESMO for patients unsuitable for intensive regimens. For more aggressive presentations, such as transformation to diffuse large B-cell lymphoma or bulky disease, chemoimmunotherapy like R-CHOP (rituximab, cyclophosphamide, doxorubicin, vincristine, prednisone) is employed, though its use is tempered by toxicity concerns in this older patient population. In relapsed settings, combinations such as lenalidomide plus rituximab offer overall responses around 80%, providing an effective non-chemotherapy option. NCCN and ESMO guidelines advocate subtype-specific tailoring, with anti-CD20 agents as the backbone of systemic management.

Prognosis

The prognosis for extranodal marginal zone lymphoma (EMZL) is generally favorable, with 5-year overall survival (OS) rates exceeding 88% and disease-specific mortality under 2% at 5 years. Early-stage disease, particularly localized forms responsive to etiological treatment like H. pylori eradication, achieves cure rates of 70-90%, while advanced-stage cases have 5-year OS around 80-85%. Relapse occurs in approximately 20-30% of patients at 5-10 years, often at distant sites, but is typically indolent and responsive to retreatment; progression within 24 months (POD24) identifies a high-risk subset with median OS of 3-5 years. Histological transformation to aggressive diffuse large B-cell lymphoma affects 5-8% cumulatively at 5-10 years and portends poorer outcomes. Risk stratification uses the MALT International Prognostic Index (MALT-IPI), incorporating age over 70 years, elevated lactate dehydrogenase (LDH), and advanced stage (III/IV), with high-risk patients (2-3 factors) showing 5-year OS of 70-80% compared to >90% for low-risk. Additional adverse factors include multifocal involvement and failure to respond to initial therapy.

Gastric subtype

The gastric subtype of extranodal marginal zone lymphoma (EMZL), also known as gastric (MALT) lymphoma, represents approximately 50% of all EMZL cases and is the most common form of this subtype. It is strongly associated with infection, which is present in up to 90% of cases and plays a key etiological role by inducing chronic and lymphoid proliferation. This subtype predominantly affects individuals aged 50 to 70 years, with a slight female predominance, and often arises in the context of longstanding H. pylori-associated . Patients typically present with nonspecific gastrointestinal symptoms, including dyspepsia, epigastric pain, , and occasional bleeding, which may mimic . Endoscopic evaluation commonly reveals superficial ulcers, erosions, or polypoid masses, most frequently in the or of the , though multifocal involvement can occur. Up to 25% of cases may be incidentally discovered during for unrelated symptoms. Diagnosis requires histopathological confirmation through multiple endoscopic biopsies, ideally from both the and to account for patchy involvement. The Wotherspoon scoring system is used to grade the lymphoid infiltrate: scores range from 0 (normal) to 5 (definitive ), with a score of 5 indicating diagnostic certainty based on features such as dense, diffuse lymphoid infiltrates with marginal zone differentiation and lymphoepithelial lesions. H. pylori status is assessed via , , or molecular tests like breath testing, and ancillary studies including and molecular clonality analysis (e.g., for IGH rearrangements) help distinguish it from reactive . Initial treatment focuses on H. pylori eradication using a combination of antibiotics (e.g., , amoxicillin, and a ) for 10-14 days, leading to complete lymphoma regression in 70-80% of localized, H. pylori-positive cases. For persistent or H. pylori-negative disease, rituximab monotherapy or in combination with (e.g., ) is recommended, achieving response rates of 70-90% in early-stage disease. Radiotherapy is an effective alternative for localized residual disease, while surgery is rarely indicated in the post-eradication era due to the high efficacy of conservative approaches. Prognosis is excellent, with a 5-year overall exceeding 90% for early-stage cases, particularly when H. pylori eradication achieves remission. High cure rates (up to 80%) are attainable with timely intervention, though late relapses can occur in 20-30% of cases, often responsive to retreatment. Advanced-stage or transformed disease portends a worse outcome, emphasizing the importance of early detection.

Ocular adnexal and salivary gland subtypes

Ocular adnexal marginal zone lymphoma (OAMZL), a subtype of extranodal marginal zone lymphoma of (MALT), accounts for approximately 8% of all extranodal lymphomas and constitutes 35-80% of primary ocular adnexal lymphomas. It most commonly arises in the (35-40%), (around 40%), and (10-15%). Patients typically present with indolent symptoms such as ocular irritation, redness, swelling, or a palpable mass; orbital involvement may cause proptosis, ptosis, , or restricted eye motility. In certain regions, such as and , OAMZL has been associated with Chlamydophila psittaci infection in up to 80% of cases, prompting trials of antibiotic therapy. Salivary gland marginal zone lymphoma represents about 5-10% of extranodal marginal zone lymphomas, with the being the most frequent site (over 80% of cases). It is strongly linked to autoimmune conditions, particularly Sjögren's syndrome, which is present in 40-50% of affected patients and may drive lymphomagenesis through chronic antigenic stimulation. Clinical manifestations are usually subtle, featuring painless, slow-growing swelling of the gland, often unilateral, without systemic symptoms in early stages. Diagnosis of both subtypes relies on histopathologic examination of biopsy tissue, revealing small B-cell infiltration with characteristic lymphoepithelial lesions—clusters of neoplastic lymphocytes invading ductal epithelium—which are a hallmark of . confirms CD20-positive marginal zone B-cells, often with light chain restriction, while or assesses clonality. () has limited utility due to the low FDG of these indolent lymphomas, detecting disease in only about 71% of non-gastric extranodal sites and rarely altering . Treatment is tailored to site and stage, with as the preferred modality for localized disease, achieving complete response rates of 80-100% at doses of 24-36 . For bilateral or disseminated involvement, rituximab monotherapy or in combination (e.g., with ) yields high response rates (up to 90%) with favorable tolerability. In C. psittaci-positive OAMZL, upfront (100 mg twice daily for 3 weeks) eradicates infection in nearly 50% of cases and induces overall responses in 65%, particularly in stage I disease. Prognosis is excellent for both subtypes, with 5-year overall survival exceeding 95% and low rates of dissemination (under 25%). Relapse occurs in 17-30% at 5-10 years, often distant, but lymphoma-specific mortality remains below 5%, supporting in select cases.

Pulmonary and other common subtypes

Pulmonary marginal zone , also known as bronchus-associated lymphoid tissue (BALT) lymphoma, accounts for approximately 10-15% of extranodal marginal zone lymphoma cases outside the and represents 70-90% of primary pulmonary lymphomas. It typically presents in middle-aged to older adults with indolent growth, often manifesting as cough, dyspnea, or , though up to 30% of patients may be at . This subtype is associated with autoimmune conditions such as Sjögren's syndrome, which may contribute to chronic antigenic stimulation in the lung mucosa. On computed tomography (CT) imaging, it commonly appears as solitary or multiple nodules, consolidations, or masses, frequently bilateral and multifocal, with lesions smaller than 5 cm. Primary cutaneous marginal zone lymphoma comprises about 5% of all marginal zone lymphomas and 20-40% of primary cutaneous B-cell lymphomas, predominantly affecting the and in adults over 50 years old. Clinically, it manifests as solitary or multiple, non-ulcerative red-to-violaceous papules, plaques, or nodules without systemic in most cases. In , a notable proportion—up to 40% in some series—is linked to chronic infection, highlighting a potential infectious trigger for lymphoproliferation in the skin. Thyroid marginal zone lymphoma is a rare entity, representing less than 5% of extranodal marginal zone lymphomas and under 3% of all thyroid malignancies. It is strongly associated with underlying , with affected individuals facing a 60-fold increased compared to the general , typically arising 20-30 years after the autoimmune . Patients usually present with a rapidly enlarging mass causing compressive symptoms such as , hoarseness, or dyspnea, though systemic symptoms are uncommon. Treatment for these subtypes is tailored to disease extent and location, emphasizing localized approaches for early-stage disease. For pulmonary, cutaneous, and presentations, or achieves complete remission in most localized cases, with radiation doses of 24-36 for pulmonary and cutaneous sites or lower fractionated doses (e.g., 4-8 ) for skin lesions. Multifocal or advanced disease responds well to rituximab monotherapy, yielding overall response rates of 50-80%, often combined with like CHOP for symptomatic patients. In Borrelia-associated cutaneous cases, antibiotics such as may eradicate infection and induce regression. For involvement, with or without rituximab is preferred over extensive , which is limited to diagnostic . These subtypes share an indolent course with excellent , achieving 5-year overall survival rates exceeding 90% and median survival over 10 years, though pulmonary cases may show slightly lower 10-year rates around 70% due to comorbidities. Transformation to aggressive occurs in 5-10% of cases across sites, but disease-specific mortality remains low at under 2% at 5 years. Relapses are common, particularly cutaneous (20-30%), but are manageable with retreatment.

Splenic marginal zone lymphoma

Clinical features

Splenic marginal zone lymphoma (SMZL) is a rare indolent accounting for about 20% of marginal zone lymphomas, primarily affecting adults with a age of 65-70 years and a slight male predominance. It characteristically presents with massive in nearly all cases (95-100%), often without peripheral , though involvement occurs in 80-100% of patients and peripheral blood lymphocytosis in 70-80%. Many patients (up to 25-30%) are at , with the condition discovered incidentally during or routine work; when symptomatic, common features include abdominal discomfort or pain due to , early satiety, fatigue from , and cytopenias (e.g., or in 20-40% due to hypersplenism). (fever, night sweats, weight loss) are uncommon (10-15%), and autoimmune complications such as occur in about 10-20%. , typically IgM, is seen in 30-40% of cases, and associations with (HCV) infection are noted in 10-20% of patients, particularly in certain regions.

Diagnosis

Diagnosis of SMZL requires integration of clinical, morphological, immunophenotypic, and molecular findings, often without due to advances in non-invasive methods. remains the gold standard for definitive histology but is increasingly reserved for therapeutic purposes; instead, (showing intrasinusoidal and nodular infiltration in 83-100% of cases) combined with peripheral blood smear (revealing villous lymphocytes in 20-90%) is commonly used. Histopathologically, the spleen shows expansion of the marginal zone with small to medium-sized lymphocytes featuring abundant pale and irregular nuclei; patterns include biphasic (concentric rings around follicles), monomorphic, or atrophic. Immunophenotypically, tumor cells are positive for , , , , and ; negative for CD5 (95%), , , , and ; and often positive for CD180 and IgM. confirms a post-germinal center B-cell phenotype with surface restriction. Molecular studies reveal immunoglobulin heavy chain variable region (IGHV) mutations in 70-90% of cases, with biased usage of IGHV1-2*04 (30%); recurrent genetic abnormalities include deletions of 7q (30-40%), 3 (20-25%), and mutations in NOTCH2 (10-25%), KLF2 (20-40%), and TP53 (15%). These help distinguish SMZL from (CD5+), (CD103+, BRAF V600E), or splenic diffuse red pulp small B-cell lymphoma. Staging employs the Ann Arbor system with modifications, including or (though FDG avidity is variable) and bone marrow assessment; most cases (70-80%) present at stage IV due to bone marrow involvement.

Treatment

Treatment for SMZL is individualized based on symptoms, cytopenias, and patient comorbidities, with appropriate for asymptomatic, early-stage disease (stage I-II, rare <10%). For symptomatic patients or those with significant splenomegaly/cytopenias (stage III-IV, >90%), options include (historically first-line, achieving response in 80-90% but with risks like infection), rituximab monotherapy (overall response rate [ORR] 90-95%, complete response [CR] 50-60%, median [PFS] 2-3 years), or rituximab combined with such as bendamustine (BR regimen, ORR 90-95%, CR 70-80%). In HCV-associated cases (10-20%), antiviral therapy (e.g., direct-acting antivirals) can induce remission in 50-70%. For relapsed/ disease, targeted therapies like BTK inhibitors ( or , ORR 50-70%) or inhibitors () are used, often in clinical trials; plus rituximab shows ORR ~80%. Maintenance rituximab (every 2-3 months for 2 years) after induction improves PFS. As of 2025, emerging therapies include PI3K inhibitors and novel immunotherapies, but no curative approach exists.

Prognosis

SMZL has an indolent course with a median overall survival (OS) of 10-15 years, though 5-year OS rates are 80-90% and 10-year OS approximately 53%; about 30% of patients develop to aggressive , associated with poorer outcomes (median OS ~4 years post-transformation). Adverse prognostic factors include age >70 years, high-risk score, TP53 mutations, complex , elevated , and HCV positivity; scoring systems like the SMZL-specific IIL score (based on , LDH, ) stratify 5-year survival estimates from 88% (low-risk) to 50% (high-risk). Relapse occurs in 40-60% of cases, often managed effectively with second-line therapies, and causes of death are primarily lymphoma-related (60%) or secondary to treatment complications.

Nodal marginal zone lymphoma

Clinical features

Nodal marginal zone lymphoma (NMZL) most commonly presents with painless , which is often disseminated and involves multiple nodal sites, with cervical and abdominal regions being the most frequent locations at . Approximately half of patients have advanced-stage (stage III or IV), corresponding to generalized in 50-60% of cases, while axillary involvement is also common. B-symptoms, including fever, , and , are reported in 10-20% of patients. Extranodal involvement occurs in 40-50% of cases and typically affects the (in up to 40%) and (in 30-60%), though other sites are less common. Paraproteinemia, usually a small IgM monoclonal component, is detected in approximately 40% of patients. Unlike extranodal marginal zone lymphoma of (), NMZL lacks epithelial tissue involvement and is primarily confined to lymph nodes without association with chronic antigenic stimulation or autoimmune conditions. Pediatric cases of NMZL are rare and generally present with localized, asymptomatic lymphadenopathy, most often in cervical or peripheral nodes rather than abdominal sites, leading to a better prognosis compared to adult cases. These pediatric presentations are indolent, with prolonged remissions following excision, and lack paraproteinemia.

Diagnosis

Diagnosis of nodal marginal zone lymphoma (NMZL) requires an excisional lymph node biopsy to evaluate the architectural and cytological features, as fine-needle aspiration is insufficient for accurate classification. The biopsy typically reveals effacement or partial replacement of the lymph node architecture by a neoplastic infiltrate composed predominantly of small to medium-sized lymphoid cells with centrocyte-like, monocytoid, or plasmacytoid morphology and abundant pale cytoplasm. Growth patterns vary, including diffuse, interfollicular, or nodular expansions, with follicular colonization—where tumor cells infiltrate and expand germinal centers—observed in up to 50% of cases, mimicking follicular lymphoma but without the typical follicular architecture. Plasmacytic differentiation is present in 22–47% of cases, and the absence of large cell transformation at diagnosis is common, though it may develop later. Immunohistochemical analysis is essential for confirming the B-cell origin and distinguishing NMZL from other low-grade lymphomas. The neoplastic cells are positive for pan-B-cell markers such as and negative for CD5 in the majority of cases (0–17% positivity, approximately 10% overall), CD10, and D1. expression is typically absent or partial, limited to scattered large cells in about 43% of cases. These features help differentiate NMZL from , which shows strong CD10 and positivity along with t(14;18) IGH/ rearrangements in ~90% of cases, and from , which is CD5- and D1-positive with t(11;14) IGH/CCND1. Additional markers like MNDA (positive in 75% of NMZL) and IRTA1 (positive in 73%) can further support the , as they are rarely expressed in . Molecular studies complement morphology and by demonstrating B-cell clonality through (IGH) gene rearrangements, detected via or next-generation sequencing in nearly all cases. Cytogenetic analysis often reveals 3 as the most common abnormality, present in 30–50% of NMZL, alongside other recurrent changes like deletions of 1p or gains of 6q. Mutations in genes such as PTPRD (20% of cases) and rare MYD88 L265P (<10%) are subtype-specific, aiding distinction from . In pediatric NMZL, the mutational landscape shows low genomic complexity with fewer somatic mutations overall, often lacking recurrent alterations seen in adults, and instead featuring changes in , TNFRSF14, or IRF8 pathways. Staging for NMZL follows the Lugano classification for non-Hodgkin lymphomas, incorporating computed tomography (CT) or to assess disease extent, for involvement (seen in approximately 50% of cases), and blood tests for cytopenias or paraproteinemia. Despite marginal zone lymphomas generally exhibiting low 18F-fluorodeoxyglucose (FDG) avidity, is useful for initial staging, detecting disease in 78–92% of cases and upstaging 3–42% of patients compared to CT alone, particularly when localized therapy or transformation is suspected. Complementary CXCR4-directed may enhance accuracy in cases of low FDG uptake.

Treatment

The treatment of nodal marginal zone lymphoma (NMZL) is tailored to disease stage, symptoms, and patient factors, with a focus on indolent management given its typically slow progression. For localized disease (stage I or limited stage II), which occurs in approximately 10% of cases, involved-site (ISRT) at doses of 24-30 is the preferred approach, offering high response rates and potential for long-term remission. Rituximab monotherapy may be considered for limited-stage disease, particularly if is contraindicated, achieving overall response rates (ORR) exceeding 70% in indolent B-cell lymphomas. In advanced disease (stage III-IV), which constitutes the majority of NMZL presentations, is recommended for asymptomatic patients without high tumor burden or cytopenias, as the lymphoma may remain stable for years without intervention. For symptomatic or progressive advanced disease, first-line typically involves rituximab combined with , such as R-CHOP (rituximab, , , , ) or bendamustine-rituximab (BR), with ORR around 90-93% and complete response rates of 60-80%. rituximab for up to 2 years may follow induction in responding patients to prolong . For relapsed or refractory NMZL, options include plus rituximab, which has demonstrated an ORR of approximately 60% in previously treated marginal zone lymphomas, or BTK inhibitors such as , approved for relapsed/refractory cases based on phase II trials showing ORR of 70-80%. Unlike , splenectomy has no established role in NMZL due to the primarily nodal involvement. In pediatric NMZL, which is rare and often presents at early stages, treatment frequently involves surgical excision for localized disease or short-course chemotherapy (e.g., CHOP-like regimens) for advanced cases, achieving cure rates exceeding 90% with excellent long-term survival approaching 100%.

Prognosis

The prognosis for nodal marginal zone lymphoma (NMZL) in adults is generally favorable but less optimistic than for extranodal subtypes, with 5-year overall survival (OS) rates ranging from 80% to 91%, attributed to a higher propensity for widespread dissemination at diagnosis. In contrast to localized extranodal forms, NMZL often presents at advanced stages (III/IV), contributing to this disparity in outcomes. Relapse occurs in approximately 50% of adult patients, reflecting the indolent yet persistent nature of the disease, while histological transformation to aggressive affects about 10% of cases and is linked to poorer survival. High-risk stratification by the (IPI) further worsens prognosis, with elevated scores correlating to reduced OS due to factors like advanced stage and comorbidities. In pediatric patients, NMZL carries an excellent prognosis, with cure rates approaching 95% and frequent localization to a single site, often allowing for without long-term sequelae. Relapses are rare in this population, and 5-year OS nears 100%, underscoring the distinct, more indolent behavior compared to adults. Key adverse prognostic factors in NMZL include age greater than 60 years, advanced stage (III/IV), and the presence of paraproteinemia, which independently predict inferior and overall outcomes. These elements, often integrated into scoring systems like the IPI or FLIPI, help tailor beyond basic .

Recent developments

Emerging targeted therapies

Bruton tyrosine kinase (BTK) inhibitors have emerged as a cornerstone of for relapsed or refractory marginal zone lymphoma (MZL) since 2020, building on earlier approvals with updated long-term data demonstrating durable responses. , a next-generation BTK inhibitor, received accelerated FDA approval in 2021 for adult patients with relapsed or refractory MZL who have received at least one prior anti-CD20-based regimen, based on the phase 2 trial showing an overall response rate (ORR) of 68.2% and a 24-month (PFS) rate of 70.9% with a median follow-up of 27.4 months. Long-term follow-up from this trial confirmed sustained benefit, with 73% of responders remaining alive and progression-free beyond 2 years, and a favorable profile marked by lower rates of compared to first-generation agents. Earlier data on , approved in 2017 but with extended analyses post-2020, reported an ORR of 58% and median duration of response of 27.6 months in relapsed or refractory MZL from the phase 2 PCYC-1121 trial, with median PFS of 15.7 months across 63 patients. Phosphoinositide 3-kinase (PI3K) inhibitors represent another class of small-molecule agents evaluated for relapsed MZL, though their adoption has been tempered by significant toxicity concerns highlighted in recent studies. and duvelisib, both selective PI3Kδ inhibitors, demonstrated activity in relapsed indolent non-Hodgkin lymphomas including MZL subsets, with showing durable responses in phase 2 trials of previously treated patients, but both agents are associated with immune-mediated toxicities such as severe infections, , and that often limit long-term use. In contrast, copanlisib, a pan-class I PI3K inhibitor with additional activity against AKT and pathways, has shown promising results in ongoing trials for relapsed MZL; the phase 2 CHRONOS-1 study reported an ORR of 78.3%, median PFS of 24.1 months, and median duration of response of 17.4 months in 23 patients with relapsed or disease, supporting its investigation in combination regimens despite and as key adverse events. BCL2 inhibitors like are gaining traction in MYD88-mutated MZL, where oncogenic signaling drives anti-apoptotic pathways, with combination approaches showing preclinical and early clinical promise since 2020. Case reports in refractory splenic MZL have documented impressive responses to combined with or rituximab, achieving deep remissions in multiply relapsed patients. Ongoing phase 2 trials are evaluating -rituximab combinations specifically in MYD88-mutated subtypes, highlighting its potential as a precision option for this genetically defined subset comprising 6-15% of MZL cases. Enhancer of zeste homolog 2 (EZH2) inhibitors, such as tazemetostat, target epigenetic dysregulation and are under evaluation for MZL with relevant alterations, though EZH2 mutations are less prevalent in MZL compared to . Limited data from broader B-cell cohorts suggest potential activity in relapsed or refractory indolent lymphomas, with a manageable safety profile featuring and myelosuppression but low rates of severe events.

Novel immunotherapies and clinical trials

Chimeric antigen receptor T-cell (CAR-T) therapies targeting CD19 have emerged as promising options for relapsed or refractory (R/R) marginal zone lymphoma (MZL). Lisocabtagene maraleucel (liso-cel; Breyanzi) received FDA priority review in August 2025 for third-line and later treatment in R/R MZL based on data from the phase 2 TRANSCEND FL trial's MZL cohort, which enrolled 66 efficacy-evaluable adults previously treated with at least two lines of therapy (as of November 2025, approval is pending with PDUFA target action date of December 5, 2025). In this cohort, liso-cel achieved an overall response rate (ORR) of 95.5% and a complete response (CR) rate of 62.1%, with a 24-month duration of response of 88.6% and overall survival of 90.4%. Safety was consistent with prior liso-cel use, including cytokine release syndrome in 76% of patients (4% grade 3) and neurologic events in 33% (4% grade 3), with no grade 4 or 5 events. Similarly, axicabtagene ciloleucel (axi-cel; Yescarta) demonstrated durable responses in the phase 2 ZUMA-5 trial, which included 20 patients with R/R MZL after at least two prior lines; the ORR was 85% and CR rate 60%, with 52% of indolent non-Hodgkin lymphoma patients maintaining responses at a median follow-up of 40.5 months across subtypes. Bispecific antibodies engaging and CD3 T-cells represent another advancing for MZL, with ongoing phase 2 evaluations showing encouraging activity. Glofitamab (intravenous) and epcoritamab (subcutaneous), fixed-duration agents, have been investigated in indolent B-cell lymphomas including MZL, achieving ORRs around 60% in heavily pretreated settings based on and cohort data from 2024 trials. These agents facilitate T-cell redirection to -positive tumor cells, offering outpatient administration and reduced hospitalization needs compared to CAR-T. Early safety profiles indicate manageable (mostly low-grade) and infections, positioning bispecifics as potential bridges to or alternatives for cellular therapies in MZL. Antibody-drug conjugates (ADCs) targeting , such as (Zynlonta), have shown early promise in R/R MZL through investigator-initiated phase 2 studies. Updated 2025 data from a monotherapy in 26 R/R MZL patients reported an ORR of 85% and rate of 69%, with durable responses and a tolerable profile including grade 3+ cytopenias in 42% but low rates of severe infections. This ADC delivers a pyrrolobenzodiazepine dimer to CD19-expressing cells, addressing in prior-line failures. Key ongoing trials are addressing unmet needs in MZL integration. The 3b MAGNIFY evaluated plus rituximab induction followed by maintenance in R/R indolent lymphomas including MZL, demonstrating prolonged with maintenance but highlighting the need for subtype-specific combinations in future designs. The 3 SELENE tested added to bendamustine-rituximab or R-CHOP in R/R MZL and , yielding an ORR of approximately 88% in the arm but no significant benefit over chemoimmunotherapy alone, informing combo explorations in subsequent studies. The 2024 International Marginal Zone Lymphoma Scientific Workshop identified critical gaps, including limited frontline data for MZL subtypes and scant evidence for pediatric cases, where predominates but standardized remain underdeveloped.

References

  1. [1]
    Non-Hodgkin Lymphoma Treatment - NCI - National Cancer Institute
    Aug 22, 2024 · Marginal zone lymphoma. This type of non-Hodgkin lymphoma begins in B lymphocytes in a part of lymph tissue called the marginal zone. The ...
  2. [2]
    https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8719063/
  3. [3]
    Epidemiology of marginal zone lymphoma - Cerhan
    Based on data from the US SEER-18 program from 2001–2017, the age-standardized incidence rate for MZL was 19.6 per 1,000,000 person-years; 9% of MZL cases were ...
  4. [4]
    B-cell lymphoma - Symptoms and causes - Mayo Clinic
    Jul 30, 2025 · Marginal zone lymphoma. This type is slow-growing and may not need treatment right away. It has three subtypes that tell where the cancer is in ...Missing: definition | Show results with:definition
  5. [5]
    Transformation in marginal zone lymphoma: results from a ...
    Nov 27, 2024 · The cumulative incidence of transformation in MZL is 5% at 5 years and 8% at 10 years after diagnosis. Transformation is associated with a ...
  6. [6]
    Marginal zone lymphoma: 2023 update on diagnosis and ...
    Aug 21, 2023 · Marginal zone lymphomas (MZL) are collectively the second most common type of indolent lymphoma, accounting for 7% of non-Hodgkin lymphoma (NHL) ...
  7. [7]
    The 5th edition of the World Health Organization Classification of ...
    Jun 22, 2022 · Marginal zone lymphomas: cytogenetic and mutational profiles differ by anatomic site, and cutaneous MZL achieves independence. Extranodal ...
  8. [8]
    Marginal zone lymphoma: present status and future perspectives
    MZL are a group of indolent B-cell lymphomas with considerable heterogeneity in terms of clinical presentation, biology, etiology and therapeutic approaches.
  9. [9]
    Epidemiology of Marginal Zone Lymphoma - PMC - PubMed Central
    As a comprehensive review of the epidemiology of NHL was recently published (10), this review first focuses on the descriptive epidemiology of MZL, including ...
  10. [10]
    Follicular lymphoma and marginal zone lymphoma - PubMed Central
    Follicular lymphoma (FL) and marginal zone lymphomas (MZL) are indolent mature B-cell neoplasms with variable clinicopathologic and genetic features.
  11. [11]
    Optimizing therapy for nodal marginal zone lymphoma | Blood
    Apr 28, 2016 · In 1990, the revised Kiel classification included the provisional entity “nodal monocytoid B-cell lymphoma,” which was renamed in 1994 in the ...
  12. [12]
    Infection-associated lymphomas derived from marginal zone B cells
    Apr 15, 2006 · Growing evidence indicates that MZ lymphomas are associated with chronic antigenic stimulation by microbial pathogens and/or autoantigens.
  13. [13]
    Infectious Aetiology of Marginal Zone Lymphoma and Role of Anti ...
    Marginal zone lymphomas have been associated with several infectious agents covering both viral and bacterial pathogens and in some cases a clear aetiological ...
  14. [14]
    Helicobacter pylori-negative gastric mucosa-associated lymphoid ...
    90% of gastric mucosa-associated lymphoid tissue (MALT) lymphomas are related to Helicobacter pylori (H. pylori) infection.
  15. [15]
    Helicobacter pylori Infection and Gastric Lymphoma
    May 5, 1994 · Circumstantial evidence suggests that infection with a bacterium, Helicobacter pylori, may increase the risk of gastric non-Hodgkin's lymphoma.
  16. [16]
    Effects of Helicobacter pylori Eradication on Early Stage Gastric ...
    Primary gastric MALT lymphoma is a neoplasia that is associated with H pylori infection. H pylori eradication leads to complete remission of gastric low-grade ...
  17. [17]
    Prevalence of HCV infection in nongastric marginal zone B-cell ...
    On the contrary, a high prevalence (8/16, 50%) of HCV infection was reported in a small series of Italian patients affected by gastric and nongastric MALT ...
  18. [18]
    Hepatitis C virus - Associated marginal zone lymphoma - PubMed
    Regression of HCV-associated MZL can be achieved with antiviral therapy and the novel generation of direct-acting antiviral agents appears highly effective and ...
  19. [19]
    Hepatitis C virus – Associated marginal zone lymphoma
    HCV was found to be associated with MZL (odds ratio [OR], 2.47; 95% confidence interval [CI], 1.44–4.23), diffuse large B-cell lymphoma (DLBCL) (OR, 2.24; 95% ...
  20. [20]
    Chlamydia psittaci is variably associated with ocular adnexal MALT ...
    Studies from Italy showed Chlamydia psittaci infection in 87% of ocular adnexal MALT lymphomas and complete or partial regression of the lymphoma after C.
  21. [21]
    Eradication of Borrelia burgdorferi infection in primary marginal zone ...
    We report a case of primary cutaneous marginal zone lymphoma, associated with B burgdorferi infection.
  22. [22]
    Campylobacter jejuni Infection in Intestinal Lymphoma
    Immunoproliferative small intestinal disease (IPSID) is a lymphoma of the mucosa-associated lymphoid tissue (MALT) that produces a characteristic truncated ...
  23. [23]
    Antibiotic treatment for bacteria-associated extranodal marginal ...
    Bb infection might be associated with chronic antigen-driven lymphomagenesis in the skin, which is the portal of entry of this bacterium. Later on ...<|control11|><|separator|>
  24. [24]
    Malignant Lymphomas in Autoimmunity and Inflammation: A Review ...
    Recent results clearly indicate an association between severity of chronic inflammation and lymphoma risk in RA and Sjögren's syndrome.
  25. [25]
    Lymphomas in Patients With Sjögren's Syndrome Are Marginal Zone ...
    The occurrence of NHL is the most serious complication of SS.2 The risk of lymphoma in these patients reached 6.4 cases per 1,000 per year (44 times greater ...Abstract · PATIENTS AND METHODS · RESULTS · DISCUSSION
  26. [26]
    Lymphoma and Lymphomagenesis in Primary Sjögren's Syndrome
    pSS patients are consistently found to have a higher risk of developing non-Hodgkin lymphoma (NHL) compared with patients with other autimmune disorders and to ...
  27. [27]
    Primary Thyroid Marginal Zone B-Cell Lymphoma of the Mucosa ...
    Dec 15, 2011 · The association between Hashimoto's thyroiditis and thyroid MALT lymphoma (TY-MZL) is fairly well understood, but the exact mechanism underlying ...
  28. [28]
    Marginal zone lymphoma: Associated autoimmunity and auto ...
    Large epidemiological studies have shown a consistent increased risk for developing lymphoma in the setting of autoimmune disorders (AID).
  29. [29]
    Autoimmune disorders and risk of non-Hodgkin lymphoma subtypes
    Apr 15, 2008 · Systemic lupus erythematosus was associated with a 2.7-fold increased risk of NHL and with diffuse large B-cell and marginal zone lymphomas.
  30. [30]
    Autoimmune and Chronic Inflammatory Disorders and Risk of Non ...
    Jan 4, 2006 · Results: Risks of all NHL were increased in association with rheumatoid arthritis (OR = 1.5, 95% CI = 1.1 to 1.9), primary Sjögren syndrome (OR ...R Esults · Rheumatoid Arthritis · Systemic Lupus Erythematosus
  31. [31]
    Monoclonal gammopathy related to Sjögren syndrome: a key marker ...
    Monoclonal gammopathy was detected in 22% of patients with primary SS fulfilling the 2002 criteria, with mIgGκ being the most frequent type of band detected ...
  32. [32]
    Novel developments in the pathogenesis and diagnosis of ... - NIH
    The term “marginal zone lymphoma” refers to the fact that these lymphoma cells are derived from post-germinal center memory B cells normally present in the ...
  33. [33]
    Recognizing nodal marginal zone lymphoma - PubMed Central - NIH
    Immunohistochemistry against immunoglobulin light chains kappa and lambda reveals light chain restriction for lambda light chains (J-K). On low power ...
  34. [34]
    Recent advances in understanding the biology of marginal zone ...
    Mar 28, 2018 · In the World Health Organization classification, there are three different marginal zone lymphoma (MZL) entities with specific diagnostic ...
  35. [35]
    Molecular Pathogenesis of MALT Lymphoma - PMC - NIH
    This review mainly discusses MALT lymphomas in terms of their genetic aberration and association with chronic infections and summarizes recent advances in their ...2. Genetic Aberrations · 2.1. Translocations · Figure 1
  36. [36]
    Clinical relevance of molecular aspects in extranodal marginal zone ...
    Among the genetic changes seen in MALT lymphoma, t(11;18)(q21;q21)/BIRC3::MALT1 is specific to MALT lymphoma, but mainly seen in those of the stomach and lung.
  37. [37]
    Mutational landscape of marginal zone B-cell lymphomas of various ...
    This meta-analysis aims to concisely summarize the genetic landscape of splenic, nodal and extranodal marginal zone lymphomas (MZL)
  38. [38]
    BCR and TLR signaling pathways are recurrently targeted by ...
    The lymphoma lacks chromosome translocation, and approximately 30% of cases are featured by 7q deletion, but the gene targeted by the deletion is unknown. A ...
  39. [39]
    Splenic marginal zone lymphoma: from genetics to management
    Apr 28, 2016 · A dedicated approach that uses antiviral agents should be reserved for SMZL associated with hepatitis C virus (HCV) infection.9. Epidemiology.
  40. [40]
    Marginal zone lymphoma - Symptoms and causes - Mayo Clinic
    Jul 25, 2025 · Marginal zone lymphoma also has a risk of coming back after treatment, known as a relapse. Repeated relapses are common.Overview · Types · Symptoms
  41. [41]
    https://pmc.ncbi.nlm.nih.gov/articles/PMC3347666/
  42. [42]
    Splenic marginal zone lymphoma (SMZL) - SEER
    Splenic marginal zone lymphoma (SMZL) is a B-cell neoplasm composed of small lymphocytes that surround and replace the splenic white pulp germinal centers, ...
  43. [43]
    Splenic marginal zone lymphoma: a literature review of diagnostic ...
    Epidemiology · SMZL is the second most common subtype of marginal zone lymphoma, comprising about 20% of the cases. · Median age at diagnosis of SMZL is 69 years.
  44. [44]
    Monoclonal gammopathy in extranodal marginal zone lymphoma ...
    Monoclonal gammopathy is a well-recognized occurrence in splenic marginal zone lymphoma (MZL); however, its prevalence has never been reported in extranodal ...
  45. [45]
    Paraneoplastic Syndrome in Splenic Marginal Zone Lymphoma - NIH
    While paraneoplastic syndromes are more common in tumors, such as small cell lung cancer, very few reports exist on this condition with SMZL.
  46. [46]
    [PDF] NCCN Guidelines for Patients: Marginal Zone Lymphomas
    SMZL may be diagnosed by removal of the spleen (splenectomy), or by biopsy of the bone marrow and blood testing with imaging and other findings. SMZL ...
  47. [47]
    Guideline for the diagnosis and management of marginal zone ...
    Nov 13, 2023 · Splenic marginal zone lymphoma. A diagnosis can usually be established through a combination of morphology and flow cytometry on peripheral ...
  48. [48]
    Marginal zone lymphoma - Diagnosis and treatment - Mayo Clinic
    Jul 25, 2025 · Bone marrow aspiration and biopsy are procedures to collect cells from the bone marrow for testing. Bone marrow is the soft matter inside bones ...
  49. [49]
    Diagnostic Usefulness of CD23 and FMC-7 Antigen Expression ...
    The CD23–/FMC-7+ pattern was the most common pattern in large cell, mantle cell, and marginal zone lymphomas. The CD23 and FMC-7 antigen, along with the CD5 ...
  50. [50]
    Present role and future perspective of PET-CT in marginal zone ...
    The Lugano Classification has not supported the use of 18F-FDG PET scanning for staging of MZL considering the low 18F-FDG avidity of these indolent lymphomas ...Introduction · Discussion · Conclusion and future... · Footnote
  51. [51]
    Management of Marginal Zone Lymphoma: A Canadian Perspective
    Feb 1, 2023 · Other clinical features at diagnosis may include bone marrow involvement (about one third of patients), B symptoms (up to 20%), anemia and/or ...
  52. [52]
    Paris staging system for primary gastrointestinal lymphomas - PMC
    Valid for lymphomas originating from the gastro-oesophageal junction to the anus (as defined by identical histomorphological structure).
  53. [53]
    Marginal zone lymphoma international prognostic index - NIH
    Apr 11, 2024 · The MZL-IPI is prospectively constructed using marginal zone lymphoma patients with all the clinical subtypes and integrates histological ...
  54. [54]
    A MALT lymphoma prognostic index | Blood - ASH Publications
    Sep 21, 2017 · There are no widely accepted prognostic indices for extranodal marginal zone lymphoma of mucosa-associated lymphoid tissue (MALT).<|separator|>
  55. [55]
    Mucosa-associated lymphoid tissue lymphoma with t(11;18)(q21
    The patients had a significantly shortened progression-free survival (PFS at 10 years; 26% v 57%; P = 0.004) compared to those without t(11;18). However, this ...
  56. [56]
    Does MRD have a role in the management of iNHL?
    Dec 10, 2021 · A noninvasive tool to monitor MRD in non-Hodgkin lymphoma through patient-specific IGH rearrangements, to identify individuals at an increased ...Abstract · Follicular lymphoma · Other iNHLs... · Concluding remarks
  57. [57]
    Extranodal Marginal Zone Lymphoma: Pathogenesis, Diagnosis and ...
    Mar 29, 2022 · EMZL accounts for 50–70% of marginal zone lymphomas ... Clinical activity of rituximab in extranodal marginal zone B-cell lymphoma of MALT type.
  58. [58]
    Marginal zone lymphoma: present status and future perspectives
    Jan 1, 2022 · In this review, we provide an overview of the biology, epidemiology, clinical presentation, current management strategies and emerging data for novel agents.
  59. [59]
    Prevalence and Implications of Bone Marrow Involvement in ...
    Feb 8, 2018 · Bone marrow involvement was found in 4.3% of the patients with gastric MALT lymphoma. Bone marrow examination may be deferred.Missing: multifocal | Show results with:multifocal<|separator|>
  60. [60]
    Gastric malt lymphoma: Analysis of a series of consecutive patients ...
    Oct 30, 2015 · In fact, at early stages HP eradication is associated with complete gastric MALT lymphoma regression in 60–80% of cases. On the other ...
  61. [61]
    Marginal Zone Lymphomas With Plasmacytic Differentiation and ...
    There may be blood and bone marrow involvement, and the bone marrow growth pattern is similar to that in other MZLs. There is no involvement of an extranodal ...
  62. [62]
    MALT Lymphoma : Immunophenotype - Webpathology
    MALT lymphomas are immunophenotypically similar to marginal zone B-cells. They are: CD20+, CD79a+, CD5- (occasional cases may be CD5+), CD10- (rare cases are ...Missing: BCL2+ cyclin D1 plasmacytoid differentiation
  63. [63]
    Primary Pulmonary B-Cell Lymphoma: A Review and Update - MDPI
    Typically, MALT lymphoma shows positivity for CD19, CD20, CD22, and CD79a, and negativity for CD3, CD5, CD10, CD23, BCL6, and cyclin D1 [3,4,9,29] (Figure 2C,D) ...
  64. [64]
    The gastric marginal zone B-cell lymphoma of MALT type | Blood
    Histologic features​​ The pivotal feature of low-grade MALT lymphoma is the presence of a variable number of lymphoepithelial lesions that can be defined as ...
  65. [65]
    Management of Extranodal Marginal Zone Lymphoma - NIH
    Jun 19, 2022 · This review focuses on the particular aspects of this indolent lymphoma that affect management and summarizes the current evidence and different guidelines.
  66. [66]
    https://www.webpathology.com/images/hematopathology/mature-b-cell-neoplasms---part-i/extranodal-marginal-zone-lymphoma/37445
  67. [67]
    Nodal marginal zone lymphoma - PubMed
    Nodal marginal zone lymphoma (NMZL) is one of the three well ... 5-year overall survival rates ranging between 55% and 89%. Therapeutic ...
  68. [68]
    Retrospective characterization of nodal marginal zone lymphoma
    The five-year overall survival was 91% (95% confidence interval [CI], 87-95), with a median follow-up time of 71 months (range, 8-253) among survivors. A ...Abstract · Introduction · Results · Discussion
  69. [69]
    Pediatric nodal marginal zone lymphoma - Pathology Outlines
    Jul 25, 2022 · Prognosis is excellent, with 5 year overall survival approaching 100% (Pediatr Blood Cancer 2020;67:e28416) · Very low relapse rate following ...
  70. [70]
    Children and adolescents with marginal zone lymphoma ... - PubMed
    Children and adolescents with marginal zone lymphoma have an excellent prognosis with limited chemotherapy or a watch-and-wait strategy after complete resection.
  71. [71]
    Prognostic factors and risk of transformation in marginal zone ...
    The median time to HGT was 29 (range, 1.3 to 135) months after MZL diagnosis. The cumulative incidence rate of HGT was 6.6% and 8.4% at 5 and 10 years, ...
  72. [72]
    [PDF] Prognostic Significance of Paraproteinemia in Marginal Zone ...
    Sep 1, 2025 · MALT lymphoma is often localized with a favorable prognosis, while SMZL and NMZL are more commonly disseminated at diagnosis and may follow a ...
  73. [73]
    Extranodal marginal zone lymphoma of mucosa associated ...
    Dec 13, 2023 · Essential features. Stomach is the most common site involved by MALT lymphoma; Most gastric MALT lymphomas associated with gastritis caused by ...
  74. [74]
    Gastric MALT lymphoma: old and new insights - PMC - NIH
    The clinical presentation of gastric lymphoma is poorly specific, symptoms ranging from vague dyspepsia, including epigastric pain or discomfort centered in ...
  75. [75]
    Diagnosis and Treatment for Gastric Mucosa-Associated Lymphoid ...
    Approximately 80–90% of patients with gastric MALT lymphoma are infected with H. pylori, and 60–80% of those cases achieve remission via H. pylori eradication ...
  76. [76]
    Wotherspoon criteria combined with B cell clonality analysis by ... - NIH
    Thus B cell clonality in Wotherspoon 3 and 4 cases is regarded as suitable for definitively diagnosing gastric marginal zone lymphoma.
  77. [77]
    Involved-site radiotherapy for Helicobacter pylori–independent ...
    Mar 31, 2021 · RT is a highly safe and effective treatment for gastric MALT lymphoma, with excellent local disease control and rare treatment-related ...Abstract · Introduction · Results · Discussion
  78. [78]
    Long-term outcome of 487 patients with early-stage extra-nodal ...
    Overall and cause-specific survival are high in early-stage extra-nodal MZL. Curative-intent treatment led to fewer relapses and reduced the need for salvage.
  79. [79]
    Extranodal marginal zone lymphoma of the ocular adnexa - PMC
    In this review, we focus on primary ocular adnexal MALT lymphoma (OAML), highlighting the most recent advances in our understanding of their clinical ...
  80. [80]
    Ocular adnexal mucosa-associated lymphoid tissue lymphoma - NIH
    This review article summarizes the previously published literature on ocular adnexal MALT lymphoma (OAML), with an overview of its clinical features, treatment ...
  81. [81]
    Sjögren's Syndrome and MALT Lymphomas of Salivary Glands
    Jan 1, 2000 · The majority of salivary gland MALT lymphomas are thought to develop from longstanding Sjögren's syndrome/benign lymphoepithelial lesion (BLEL).<|separator|>
  82. [82]
    Extranodal Marginal Zone Lymphoma of Ocular Adnexa
    The aim of this study was to report outcomes following radiation therapy in patients with biopsy-proven extranodal marginal zone lymphoma of the ocular ...Patients And Methods · Table 1 · Discussion
  83. [83]
    Marginal zone lymphomas: ESMO Clinical Practice Guidelines for ...
    Jan 6, 2020 · NMZL usually presents with disseminated lymphadenopathy (mostly cervical and abdominal), with or without bone marrow and blood involvement at ...
  84. [84]
    Chlamydophila psittaci eradication with doxycycline as first-line ...
    Aug 20, 2012 · Upfront doxycycline is a rational and active treatment for patients with stage I Cp-positive OAMZL. Lymphoma regression is consequent to Cp ...
  85. [85]
    Long-term course of patients with primary ocular adnexal MALT ...
    Jan 19, 2017 · Radiation therapy (RT) is currently a well-accepted treatment option for limited stage POAML, resulting in up to 85% to 100% long-term complete ...
  86. [86]
    Clinical and radiological characteristics of patients with pulmonary ...
    May 26, 2020 · Pulmonary marginal zone lymphoma (PMZL) is the most common non‐Hodgkin lymphoma affecting the lung. PMZL is usually an indolent disease.
  87. [87]
    Dermatological Considerations in the Diagnosis and Treatment of ...
    Mar 8, 2021 · The lympho-epithelial lesions, which play an important role in diagnosis of mucosa-associated marginal zone lymphomas, are useless in case of PC ...
  88. [88]
    Thyroid Lymphoma - StatPearls - NCBI Bookshelf - NIH
    Feb 26, 2024 · The systemic symptoms encompass B-symptoms of lymphoma, such as fever, night sweats, and weight loss, as well as symptoms of hypothyroidism, ...
  89. [89]
    Clinical characteristics, treatment patterns, and survival outcomes of ...
    Pulmonary MALT lymphoma is an indolent tumor. Patients in different stages had different prognoses, and different treatments were recommended.
  90. [90]
    Recognizing nodal marginal zone lymphoma: recent advances and ...
    Jul 1, 2013 · According to the current (2008) WHO classification, NMZL is “a primary nodal B-cell neoplasm that morphologically resembles lymph nodes involved ...Abstract · Introduction · Conclusions and...
  91. [91]
    Serum Paraprotein Is Associated with Adverse Prognostic Factors ...
    Sep 6, 2023 · ... nodal marginal zone lymphoma (NMZL), and Pediatric NMZL (PNMZL). ... O-PP = 40% ref = 36% CNS-IPI = 4–6 IgM = 36% O-PP = 14% ref = 15 ...
  92. [92]
    “Pediatric” Nodal Marginal Zone Lymphoma in Adults - PMC - NIH
    It has distinctive morphology and clinical presentation and stands out as an indolent disease with remarkably better overall prognosis compared to classic NMZL.
  93. [93]
    Marginal zone lymphomas in children and the young adult population
    Mar 19, 2010 · Nodal marginal zone lymphoma in the pediatric and young adult population is relatively rare, with specific clinicopathological features that led ...<|separator|>
  94. [94]
    Marginal zone-nodal - Pathology Outlines
    Sep 28, 2021 · Nodal marginal zone lymphoma is a primary nodal mature B cell lymphoma derived from postgerminal center B cell.
  95. [95]
    Article A study of the mutational landscape of pediatric-type follicular ...
    Fewer mutations were detected in pediatric nodal marginal zone lymphoma, with 14 single-nucleotide variants observed in genes involved in cellular adhesion ...
  96. [96]
    Improved Primary Staging of Marginal-Zone Lymphoma by Addition ...
    Oct 1, 2021 · Conclusion: CXCR4 PET/CT is a suitable tool in primary staging of MZL and holds the potential to improve existing diagnostic algorithms.
  97. [97]
    An international analysis evaluating frontline bendamustine with ...
    Apr 12, 2022 · Overall response rate was 93.2% with 81% complete responses. Estimated 5-year progression-free survival (PFS) and overall survival (OS) were ...
  98. [98]
    How do we sequence therapy for marginal zone lymphomas? - PMC
    Dec 4, 2020 · Available guidelines indicate locoregional treatments such as surgery and radiation therapy as the mainstay of the initial management of ...
  99. [99]
    Marginal Zone B-Cell Lymphoma in Children and Young Adults - NIH
    In contrast, only 9.5% (4 of 42) of the cases showed light chain restriction by immuno- histochemistry without demonstrable monoclonality by molecular analysis.<|control11|><|separator|>
  100. [100]
    FDA grants accelerated approval to zanubrutinib for marginal zone ...
    Sep 16, 2021 · The Food and Drug Administration granted accelerated approval to zanubrutinib (Brukinsa, BeiGene) for adult patients with relapsed or refractory marginal zone ...Missing: 2024 PFS
  101. [101]
    Safety and efficacy of zanubrutinib in relapsed/refractory marginal ...
    Nov 28, 2023 · In this final analysis of MAGNOLIA, zanubrutinib demonstrated sustained clinical responses beyond 2 years, with 73% of responders alive and progression free.
  102. [102]
    Durable ibrutinib responses in relapsed/refractory marginal zone ...
    Nov 23, 2020 · With extended follow-up, ibrutinib demonstrated durable clinical benefit in patients with relapsed/refractory MZL.Abstract · Introduction · Results · Discussion
  103. [103]
    Idelalisib in the management of lymphoma - PMC - NIH
    Recent data indicate idelalisib combinations cause immune deficiency in addition to autoimmune toxicity. A recent safety analysis of 3 phase 3 studies in ...
  104. [104]
    PI3Kδ Inhibition by Idelalisib in Patients with Relapsed Indolent ...
    Jan 22, 2014 · Idelalisib, an orally active selective PI3Kδ inhibitor, showed antitumor activity in patients with previously treated indolent non-Hodgkin's lymphomas.Missing: duvelisib | Show results with:duvelisib
  105. [105]
    Efficacy and safety of copanlisib in patients with relapsed or ...
    Feb 5, 2021 · Long-term copanlisib treatment is tolerable and leads to durable responses, supporting its use in patients with relapsed/refractory MZL.
  106. [106]
    The HCK/BTK inhibitor KIN-8194 is active in MYD88-driven ...
    Nov 18, 2021 · The BCL_2 inhibitor venetoclax enhanced the antitumor activity of KIN-8194 in BTKWT- and BTKCys481Ser-expressing MYD88-mutated lymphoma cells ...
  107. [107]
    Refractory Splenic Marginal Zone Lymphoma Responsive to ... - NIH
    Jun 6, 2022 · We report a case of SMZL, which, after failing multiple therapeutics, demonstrated an impressive clinical response to combined Venetoclax and Velcade (V 2 ).2. Case Report · Figure 2 · 3. Discussion
  108. [108]
    BCL‐2 inhibition in Waldenström macroglobulinaemia and marginal ...
    Oct 19, 2025 · Currently, the combination of venetoclax and rituximab is being used as a front-line therapy for MZL in an ongoing clinical trial (NCT06510309), ...
  109. [109]
    Tazemetostat for relapsed/refractory B-cell non-Hodgkin lymphoma ...
    Aug 23, 2024 · Long-term oral monotherapy with tazemetostat showed favorable efficacy and safety profiles, indicating that it may be a useful third-line or later treatment ...Missing: marginal 2023 results
  110. [110]
    Efficacy and safety of tazemetostat in patients with refractory ...
    May 28, 2025 · Relapsed/refractory FL and DLBCL responds well to Tazemetostat in terms of ORR, PFS, and DOR, with a relatively low incidence of severe adverse events.
  111. [111]
    Novel targeted drugs for follicular and marginal zone lymphoma
    May 2, 2023 · The phase 2 SYMPHONY-2 trial will examine tazemetostat in combination with rituximab in R/R FL patients (NCT04762160). Indeed, a study combining ...Introduction · Small molecules with targeted... · Harnessing the immune system
  112. [112]
    Corporate news details - Bristol Myers Squibb - Press Releases
    Jun 16, 2025 · The MZL cohort of TRANSCEND FL enrolled adults with relapsed or refractory disease treated with liso-cel in the third-line plus setting.
  113. [113]
    FDA Grants Priority Review to Liso-Cel for R/R Marginal Zone ...
    Aug 4, 2025 · Lisocabtagene maraleucel shows promising efficacy in relapsed/refractory MZL, with a 95.5% overall response rate and 62.1% complete response ...Missing: 2020-2025 | Show results with:2020-2025<|separator|>
  114. [114]
    Three-year follow-up analysis of axicabtagene ciloleucel in relapsed ...
    Feb 8, 2024 · Axi-cel demonstrated durable responses in patients with FL and MZL after 3 years of follow-up.Elevated baseline total metabolic tumor volume ...Introduction · Methods · Results · Discussion
  115. [115]
    Bispecific antibodies in follicular lymphoma - Haematologica
    Oct 31, 2024 · Efficacy of bispecific antibodies in phase II trials for treatment of patients with relapsed/refractory follicular lymphoma. Epcoritamab.
  116. [116]
    Chimeric Antigen Receptor T-Cell Therapy and Bispecific Antibody ...
    May 30, 2025 · This review aims to provide an overview of cellular therapy and BsAbs use in large B-cell lymphoma (LBCL), follicular lymphoma (FL), and mantle cell lymphoma ( ...
  117. [117]
    ADC Therapeutics Announces Updated ZYNLONTA® Investigator ...
    Jun 16, 2025 · Updated Phase 2 data evaluating ZYNLONTA as a monotherapy demonstrate overall response rate (ORR) of 85% and complete response (CR) rate of 69%.Missing: novel | Show results with:novel
  118. [118]
    P1156: MAGNIFY PHASE 3B STUDY OF LENALIDOMIDE + ... - NIH
    Methods: MAGNIFY is a multicenter, phase 3b trial in patients with R/R follicular lymphoma (FL) grades 1–3b, transformed FL (tFL), marginal zone lymphoma (MZL) ...
  119. [119]
    Phase 3 SELENE study: ibrutinib plus BR/R-CHOP in ... - PubMed
    Nov 28, 2023 · The phase 3 SELENE study evaluated ibrutinib + chemoimmunotherapy (CIT; bendamustine and rituximab [BR]; or rituximab, cyclophosphamide, doxorubicin, ...Missing: polatuzumab | Show results with:polatuzumab
  120. [120]
    Insights, Knowledge Gaps, and Priorities in Marginal Zone ...
    Feb 10, 2025 · Five-year survival rates continue to increase and are highest for extranodal MZL at 96%, followed by splenic (85%) and nodal (85%) disease.<|control11|><|separator|>