Abstract

Marginal zone lymphoma (MZL) comprises a biologically heterogenous group of indolent B-cell lymphomas that remain substantially underrepresented in clinical research. Despite recent and significant therapeutic advances in B-cell malignancies, trial design in MZL continues to face persistent challenges, including diagnostic heterogeneity, inconsistent control arms, suboptimal end points, and economic barriers. In this narrative review, we examine these key obstacles and discuss emerging strategies to overcome them, such as the standardization of diagnostic criteria, implementation of subtype-specific treatment approaches, validation of surrogate end points, and integration of novel response assessment modalities, such as metabolic imaging (positron emission tomography), minimal residual disease assessment using flow cytometry or single-cell molecular evaluation, and circulating tumor DNA measurement, but these need to be evaluated and harmonized for full appreciation. We argue that MZL should be understood as a methodologic paradigm rather than as a clinical exception. This may facilitate the refinement of trial design and ultimately accelerate therapeutic innovation across the broad spectrum of indolent lymphomas.

Subjects:
Clinical Trials and Observations, Lymphoid Neoplasia, Review Articles, Review Series
1.
Rossi
D
,
Bertoni
F
,
Zucca
E
.
Marginal-zone lymphomas
.
N Engl J Med
.
2022
;
386
(
6
):
568
-
581
.
Google Scholar
 
2.
Campo
E
,
Jaffe
ES
,
Cook
JR
, et al.
The International Consensus Classification of mature lymphoid neoplasms: a report from the Clinical Advisory Committee
.
Blood
.
2022
;
140
(
11
):
1229
-
1253
.
Google Scholar
 
3.
Alaggio
R
,
Amador
C
,
Anagnostopoulos
I
, et al.
The 5th edition of the World Health Organization Classification of haematolymphoid tumours: lymphoid neoplasms
.
Leukemia
.
2022
;
36
(
7
):
1720
-
1748
.
Google Scholar
 
4.
Du
MQ
.
MALT lymphoma: a paradigm of NF-κB dysregulation
.
Semin Cancer Biol
.
2016
;
39
:
49
-
60
.
Google Scholar
 
5.
Cerhan
JR
,
Habermann
TM
.
Epidemiology of marginal zone lymphoma
.
Ann Lymphoma
.
2021
;
5
:
1
.
Google Scholar
 
6.
Ekström Smedby
K
,
Vajdic
CM
,
Falster
M
, et al.
Autoimmune disorders and risk of non-Hodgkin lymphoma subtypes: a pooled analysis within the InterLymph Consortium
.
Blood
.
2008
;
111
(
8
):
4029
-
4038
.
Google Scholar
 
7.
Ye
H
,
Gong
L
,
Liu
H
, et al.
MALT lymphoma with t(14;18)(q32;q21)/IGH-MALT1 is characterized by strong cytoplasmic MALT1 and BCL10 expression
.
J Pathol
.
2005
;
205
(
3
):
293
-
301
.
Google Scholar
 
8.
Chanudet
E
,
Ye
H
,
Ferry
J
, et al.
A20 deletion is associated with copy number gain at the TNFA/B/C locus and occurs preferentially in translocation-negative MALT lymphoma of the ocular adnexa and salivary glands
.
J Pathol
.
2009
;
217
(
3
):
420
-
430
.
Google Scholar
 
9.
Spina
V
,
Khiabanian
H
,
Messina
M
, et al.
The genetics of nodal marginal zone lymphoma
.
Blood
.
2016
;
128
(
10
):
1362
-
1373
.
Google Scholar
 
10.
Bonfiglio
F
,
Bruscaggin
A
,
Guidetti
F
, et al.
Genetic and phenotypic attributes of splenic marginal zone lymphoma
.
Blood
.
2022
;
139
(
5
):
732
-
747
.
Google Scholar
 
11.
Braggio
E
,
Dogan
A
,
Keats
JJ
, et al.
Genomic analysis of marginal zone and lymphoplasmacytic lymphomas identified common and disease-specific abnormalities
.
Mod Pathol
.
2012
;
25
(
5
):
651
-
660
.
Google Scholar
 
12.
Bommier
C
,
Ruggiu
M
,
Monégier
A
,
Zucca
E
,
Thieblemont
C
,
Lambert
J
.
Systematic review reveals urgent need to homogenize endpoints choices and definitions in marginal zone lymphomas trials
.
Leuk Lymphoma
.
2022
;
63
(
7
):
1544
-
1555
.
Google Scholar
 
13.
Salar
A
,
Domingo-Domenech
E
,
Panizo
C
, et al.
Long-term results of a phase 2 study of rituximab and bendamustine for mucosa-associated lymphoid tissue lymphoma
.
Blood
.
2017
;
130
(
15
):
1772
-
1774
.
Google Scholar
 
14.
Iannitto
E
,
Bellei
M
,
Amorim
S
, et al.
Efficacy of bendamustine and rituximab in splenic marginal zone lymphoma: results from the phase II BRISMA/IELSG36 study
.
Br J Haematol
.
2018
;
183
(
5
):
755
-
765
.
Google Scholar
 
15.
Rummel
MJ
,
Niederle
N
,
Maschmeyer
G
, et al.
Bendamustine plus rituximab versus CHOP plus rituximab as first-line treatment for patients with indolent and mantle-cell lymphomas: an open-label, multicentre, randomised, phase 3 non-inferiority trial
.
Lancet
.
2013
;
381
(
9873
):
1203
-
1210
.
Google Scholar
 
16.
Flinn
IW
,
van der Jagt
R
,
Kahl
BS
, et al.
Randomized trial of bendamustine-rituximab or R-CHOP/R-CVP in first-line treatment of indolent NHL or MCL: the BRIGHT study
.
Blood
.
2014
;
123
(
19
):
2944
-
2952
.
Google Scholar
 
17.
Leonard
JP
,
Trneny
M
,
Izutsu
K
, et al;
AUGMENT
.
A phase III study of lenalidomide plus rituximab versus placebo plus rituximab in relapsed or refractory indolent lymphoma
.
J Clin Oncol
.
2019
;
37
(
14
):
1188
-
1199
.
Google Scholar
 
18.
Phillips
T
,
Chan
H
,
Tam
CS
, et al.
Zanubrutinib monotherapy in relapsed/refractory indolent non-Hodgkin lymphoma
.
Blood Adv
.
2022
;
6
(
11
):
3472
-
3479
.
Google Scholar
 
19.
Opat
S
,
Tedeschi
A
,
Linton
K
, et al.
The MAGNOLIA trial: zanubrutinib, a next-generation Bruton tyrosine kinase inhibitor, demonstrates safety and efficacy in relapsed/refractory marginal zone lymphoma
.
Clin Cancer Res
.
2021
;
27
(
23
):
6323
-
6332
.
Google Scholar
 
20.
Neelapu
SS
,
Chavez
JC
,
Sehgal
AR
, et al.
Three-year follow-up analysis of axicabtagene ciloleucel in relapsed/refractory indolent non-Hodgkin lymphoma (ZUMA-5)
.
Blood
.
2024
;
143
(
6
):
496
-
506
.
Google Scholar
 
21.
Matutes
E
,
Owusu-Ankomah
K
,
Morilla
R
, et al.
The immunological profile of B-cell disorders and proposal of a scoring system for the diagnosis of CLL
.
Leukemia
.
1994
;
8
(
10
):
1640
-
1645
.
Google Scholar
 
22.
Varettoni
M
,
Arcaini
L
,
Zibellini
S
, et al.
Prevalence and clinical significance of the MYD88 (L265P) somatic mutation in Waldenstrom’s macroglobulinemia and related lymphoid neoplasms
.
Blood
.
2013
;
121
(
13
):
2522
-
2528
.
Google Scholar
 
23.
Cheah
CY
,
Seymour
JF
.
Marginal zone lymphoma: 2023 update on diagnosis and management
.
Am J Hematol
.
2023
;
98
(
10
):
1645
-
1657
.
Google Scholar
 
24.
Iannitto
E
,
Ferrero
S
,
Bommier
C
, et al.
Bendamustine and rituximab as first-line treatment for symptomatic splenic marginal zone lymphoma: long-term outcome and impact of early unmeasurable minimal residual disease attainment from the BRISMA/IELSG36 phase II study
.
Haematologica
.
2024
;
109
(
7
):
2297
-
2302
.
Google Scholar
 
25.
Thieblemont
C
,
Felman
P
,
Callet-Bauchu
E
, et al.
Splenic marginal-zone lymphoma: a distinct clinical and pathological entity
.
Lancet Oncol
.
2003
;
4
(
2
):
95
-
103
.
Google Scholar
 
26.
Arcaini
L
,
Bommier
C
,
Alderuccio
JP
, et al.
Marginal zone lymphoma International Prognostic Index: a unifying prognostic index for marginal zone lymphomas requiring systemic treatment
.
EClinicalMedicine
.
2024
;
72
:
102592
.
Google Scholar
 
27.
Thieblemont
C
,
Tani
M
,
Brociner
M
, et al.
Rituximab and ibrutinib combination in untreated systemic and nodal marginal zone lymphomas: Long-term outcome and the impact of early minimal residual disease from the IELSG47/MALIBU Phase II Study
.
Hematological Oncology
.
2025
;
43
(
S3
):
254
.
Google Scholar
 
28.
Noy
A
,
de Vos
S
,
Thieblemont
C
, et al.
Targeting Bruton tyrosine kinase with ibrutinib in relapsed/refractory marginal zone lymphoma
.
Blood
.
2017
;
129
(
16
):
2224
-
2232
.
Google Scholar
 
29.
Zucca
E
,
Arcaini
L
,
Buske
C
, et al.
Marginal zone lymphomas: ESMO clinical practice guidelines for diagnosis, treatment and follow-up
.
Ann Oncol
.
2020
;
31
(
1
):
17
-
29
.
Google Scholar
 
30.
Zucca
E
,
Conconi
A
,
Martinelli
G
, et al.
Final results of the IELSG-19 randomized trial of mucosa-associated lymphoid tissue lymphoma: improved event-free and progression-free survival with rituximab plus chlorambucil versus either chlorambucil or rituximab monotherapy
.
J Clin Oncol
.
2017
;
35
(
17
):
1905
-
1912
.
Google Scholar
 
31.
Alderuccio
JP
,
Arcaini
L
,
Watkins
MP
, et al.
An international analysis evaluating frontline bendamustine with rituximab in extranodal marginal zone lymphoma
.
Blood Adv
.
2022
;
6
(
7
):
2035
-
2044
.
Google Scholar
 
32.
Kalpadakis
C
,
Pangalis
GA
,
Sachanas
S
, et al.
Rituximab monotherapy in splenic marginal zone lymphoma: prolonged responses and potential benefit from maintenance
.
Blood
.
2018
;
132
(
6
):
666
-
670
.
Google Scholar
 
33.
Tun
AM
,
Khurana
A
,
Mwangi
R
, et al.
Causes of death in low-grade B-cell lymphomas in the rituximab era: a prospective cohort study
.
Blood Adv
.
2022
;
6
(
17
):
5210
-
5221
.
Google Scholar
 
34.
Bommier
C
,
Maurer
MJ
,
Lambert
J
.
What clinicians should know about surrogate end points in hematologic malignancies
.
Blood
.
2024
;
144
(
1
):
11
-
20
.
Google Scholar
 
35.
Shi
Q
,
Flowers
CR
,
Hiddemann
W
, et al.
Thirty-month complete response as a surrogate end point in first-line follicular lymphoma therapy: an individual patient-level analysis of multiple randomized trials
.
J Clin Oncol
.
2017
;
35
(
5
):
552
-
560
.
Google Scholar
 
36.
Bommier
C
,
Zucca
E
,
Chevret
S
, et al.
Early complete response as a validated surrogate marker in extranodal marginal zone lymphoma systemic therapy
.
Blood
.
2024
;
143
(
5
):
422
-
428
.
Google Scholar
 
37.
Ge
C
,
Guo
K
,
Li
Y
, et al.
Analysis of patient-reported outcomes in the approval of novel oncology drugs in the United States, 2017-2022
.
EClinicalMedicine
.
2023
;
59
:
101953
.
Google Scholar
 
38.
Cheson
BD
,
Fisher
RI
,
Barrington
SF
, et al.
Recommendations for initial evaluation, staging, and response assessment of Hodgkin and non-Hodgkin lymphoma: the Lugano classification
.
J Clin Oncol
.
2014
;
32
(
27
):
3059
-
3068
.
Google Scholar
 
39.
Carrillo-Cruz
E
,
Marín-Oyaga
VA
,
de la Cruz Vicente
F
, et al.
Role of 18F-FDG-PET/CT in the management of marginal zone B cell lymphoma
.
Hematol Oncol
.
2015
;
33
(
4
):
151
-
158
.
Google Scholar
 
40.
Albano
D
,
Bosio
G
,
Camoni
L
, et al.
Prognostic role of baseline 18F-FDG PET/CT parameters in MALT lymphoma
.
Hematol Oncol
.
2019
;
37
(
1
):
39
-
46
.
Google Scholar
 
41.
Vaxman
I
,
Bernstine
H
,
Kleinstern
G
, et al.
FDG PET/CT as a diagnostic and prognostic tool for the evaluation of marginal zone lymphoma
.
Hematol Oncol
.
2019
;
37
(
2
):
168
-
175
.
Google Scholar
 
42.
Song
GY
,
Yoon
SE
,
Kim
SJ
, et al.
Prognostic significance of interim PET/CT response for the treatment of advanced-stage marginal zone lymphoma in the post-rituximab era
.
Sci Rep
.
2020
;
10
(
1
):
11649
.
Google Scholar
 
43.
Alderuccio
JP
,
Reis
IM
,
Koff
JL
, et al.
Predictive value of staging PET/CT to detect bone marrow involvement and early outcomes in marginal zone lymphoma
.
Blood
.
2023
;
141
(
15
):
1888
-
1893
.
Google Scholar
 
44.
Copie-Bergman
C
,
Gaulard
P
,
Lavergne-Slove
A
, et al.
Proposal for a new histological grading system for post-treatment evaluation of gastric MALT lymphoma
.
Gut
.
2003
;
52
(
11
):
1656
.
Google Scholar
 
45.
Albano
D
,
Camoni
L
,
Giubbini
R
,
Bertagna
F
.
Prognostic value of 18F-FDG PET/CT metabolic parameters in splenic marginal zone lymphoma
.
Clin Lymphoma Myeloma Leuk
.
2020
;
20
(
11
):
e897
-
e904
.
Google Scholar
 
46.
Lyu
R
,
Wang
T
,
Wang
Y
, et al.
Undetectable minimal residual disease is an independent prognostic factor in splenic marginal zone lymphoma
.
Br J Haematol
.
2021
;
194
(
5
):
862
-
869
.
Google Scholar
 
47.
Bisig
B
,
Lefort
K
,
Carras
S
,
de Leval
L
.
Clinical use of circulating tumor DNA analysis in patients with lymphoma
.
Hum Pathol
.
2025
;
156
:
105679
.
Google Scholar
 
48.
Roschewski
M
,
Rossi
D
,
Kurtz
DM
,
Alizadeh
AA
,
Wilson
WH
.
Circulating tumor DNA in lymphoma: principles and future directions
.
Blood Cancer Discov
.
2022
;
3
(
1
):
5
-
15
.
Google Scholar
 
49.
Lakhotia
R
,
Roschewski
M
.
Clinical applications of circulating tumor DNA in indolent B-cell lymphomas
.
Semin Hematol
.
2023
;
60
(
3
):
164
-
172
.
Google Scholar
 
50.
Giannuzzi
V
,
Stoyanova-Beninska
V
,
Hivert
V
.
Editorial: the use of real world data for regulatory purposes in the rare diseases setting
.
Front Pharmacol
.
2022
;
13
:
1089033
.
Google Scholar
 
51.
European Medicines Agency
.
European Medicines Agency Guidance for Applicants Seeking access to PRIME Scheme
. Accessed 22 September 2025. https://www.ema.europa.eu/en/documents/other/european-medicines-agency-guidance-applicants-seeking-access-prime-scheme_en.pdf.
52.
Food and Drug Administration
.
FDA Guidance
. Accessed 22 September 2025. https://www.fda.gov/regulatory-information/search-fda-guidance-documents.
53.
Richardson
NC
,
Kasamon
Y
,
Pazdur
R
,
Gormley
N
.
The saga of PI3K inhibitors in haematological malignancies: survival is the ultimate safety endpoint
.
Lancet Oncol
.
2022
;
23
(
5
):
563
-
566
.
Google Scholar
 
54.
European Medicines Agency
.
Guideline on the Scientific Application and the Practical Arrangements Necessary to Implement Commission Regulation (EC) No 507/2006 on the Conditional Marketing Authorisation for Medicinal Products for Human Use Falling Within the Scope of Regulation (EC) No 726/2004
. Accessed 22 September 2025. https://www.ema.europa.eu/en/documents/regulatory-procedural-guideline/draft-guideline-scientific-application-and-practical-arrangements-necessary-implement-regulation-ec-no-507-2006-conditional-marketing-authorisation-medicinal-products-human-use-falling_en.pdf.
55.
Serrano
C
,
Rothschild
S
,
Villacampa
G
, et al.
Rethinking placebos: embracing synthetic control arms in clinical trials for rare tumors
.
Nat Med
.
2023
;
29
(
11
):
2689
-
2692
.
Google Scholar
 
© 2026 American Society of Hematology. Published by Elsevier Inc. All rights are reserved, including those for text and data mining, AI training, and similar technologies.
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