Comparable Efficacy of Reduced Dose Radiation Therapy for the Treatment of Early Stage Gastric Extranodal Marginal Zone Lymphoma of Mucosa-Associated Lymphoid Tissue.

PURPOSE: This study compares reduced (<27 Gy) to standard dose (≥30 Gy) radiation therapy (RT) in the treatment of gastric extranodal marginal zone lymphoma of mucosa-associated lymphoid tissue (gMALT lymphoma). METHODS AND MATERIALS: Forty-two patients with stage I or II disease were retrospectively reviewed. Response to RT was assessed with endoscopy after RT. Complete response rate (CR), freedom from treatment failure, and overall survival (OS) were calculated.
RESULTS: All patients were stage I (n = 40) or II (n = 2). All patients had residual biopsy proven gMALT lymphoma before RT. Twenty-six patients (61.9%) were treated with standard dose RT, 30 to 36 Gy, and 16 (38.1%) with the reduced dose RT, 23.5 to 27 Gy. The median follow-up was 29.5 months (range, 6-85). Thirty-six patients (86%) achieved complete response (CR), and 6 patients (14%) achieved partial response (PR). The complete response rate (CR) at the first endoscopic assessment, median time of 3 months, was 81% (95% confidence interval, 0.61%-0.93%) for standard RT, and 94% (confidence interval, 0.69%-0.99%) for reduced RT. Among CR patients, one patient had locally relapsed disease at 50 months. The 1-year overall survival (OS) was 100% in both groups. The 1-year freedom from treatment failure (FFTF) was 100% in the reduced RT group and 92% in the standard RT group. The 2-year FFTF and OS of the whole cohort were 92% and 96%, respectively. There was no significant difference in the OS, FFTF, and CR between the 2 treatment groups (P = .38, P = .18, and P = .267, respectively). For toxicity, the mean liver dose and the mean V20 heart dose were significantly lower in the reduced RT group (P <.001 and P = .001, respectively). However, incidence and severity of reported toxicities were similar between the 2 groups.
CONCLUSIONS: Reduced dose RT (23.5-27 Gy) achieved excellent complete response rates with minimal toxicity, comparable with standard dose RT (30-36 Gy), for gMALT.

Introduction

Primary gastric lymphoma accounts for 30% to 40% of all extranodal lymphomas and represents the most common extranodal form of non-Hodgkin lymphoma. The most common histologic subtypes are gastric mucosa-associated lymphoid tissue (gMALT) lymphoma, and diffuse large B-cell lymphoma (DLBCL).

MALT lymphoma is a low-grade, highly radiation-sensitive indolent non-Hodgkin lymphoma and is closely associated with H. pylori infection., For Helicobacter pylori (H. pylori) positive gMALT lymphoma, antibiotic treatment is the primary treatment modality,, and radiation therapy (RT) serves as a salvage treatment for patients with incomplete response. For localized H. pylori negative gMALT lymphoma, RT is considered the frontline treatment modality.,

Historically a dose of 30 Gy or greater has been used for the treatment of localized gMALT; excellent local control rates (>90%) has been reported in previous studies.10, 11, 12, 13, 14 Lowering the dose of RT has been effective in other indolent lymphomas and may achieve similar outcomes in gMALT lymphoma.15, 16, 17 Reducing RT dose also lends toward less toxicity as reported by previous studies.

The aim of this study is to explore the effect of reducing the dose of RT in the treatment of gMALT lymphoma. It represents the largest study to date comparing standard to reduced dose RT for the treatment of gMALT lymphoma.

Methods

After Institutional Review Board approval, records of consecutive patients who received a biopsy-proven gMALT lymphoma at our institution between 2010 and 2020 were retrospectively studied. Only patients with stage I and II gMALT treated with RT were included. Patients who lack follow-up information were excluded.

Staging and workup

All patients had an endoscopic biopsy confirming gMALT lymphoma. Presence or absence of H. Pylori infection was documented by hematoxylin and eosin (H&E) stain or immunohistochemical study. Computed tomography (CT) or positron emission tomography-computed tomography (PET-CT) imaging was performed for staging, including documentation of gastric fluorodeoxyglucose uptake. Staging was based on Ann Arbor staging criteria. The MALT International Prognostic Index (IPI) was calculated for each patient based on age ≥70 years, elevated lactate dehydrogenase level, and Ann Arbor stage III or IV. Multifocal disease was defined as lymphoma involving more than one anatomic location of the stomach (antrum, body, fundus).

Treatment

Patients received RT as frontline therapy in cases of negative H. pylori disease, or as salvage therapy after incomplete response to antibiotics in cases of positive H. pylori disease. Some patients were treated with Rituximab before RT. All patients had residual biopsy proven gMALT lymphoma before RT. Patients were either treated with the standard dose RT (≥30 Gy) or reduced dose RT (<27 Gy). Dose was selected based on physician preference, with reduced dose RT being implemented more recently at our institution. Treatment planning involved either CT simulation with free breathing 4-dimensional (4D) CT (n = 26), free breathing with no 4D CT (n = 6), or deep-inspiration breath hold (DIBH) CT (n = 10), with DIBH implemented more recently at our institution. Larger planning target volume margins were used for patients treated with free breathing (4DCT patients included the creation of an internal target volume or ITV to account for tumor motion) versus DIBH. Treatment technique involved either 3-dimensional (3D) conformal RT, static field intensity modulated radiation therapy (IMRT), or volumetric modulated arc therapy (VMAT). The clinical target volume included the stomach only in stage I disease, and the involved lymph nodes in stage II disease as per the International Radiation Oncology Lymphoma Group (ILROG) guidelines.

Disease assessment/follow-up

Treatment response was assessed with endoscopies approximately 3 months after RT. Complete response (CR) or partial response (PR) was documented based on the post RT endoscopic biopsy result showing eradication or persistence of gMALT lymphoma, respectively. In case of PR, subsequent endoscopies with biopsies were repeated on 3 to 6 months intervals. Patients were followed up for RT toxicity on weekly basis during treatment. Toxicity was reported and graded based on the Common Terminology Criteria for Adverse Events version 5.0 of the National Cancer Institute.

Statistical methods and study endpoints

Statistical analysis was performed using IBM SPSS 20.0 software. Continuous data were reported as medians, ranges, means, and standard deviations. Categorical data were reported as counts and proportions. Comparisons of different demographic and tumor characteristics between the 2 groups were done using χ2 and Fisher exact tests. Continuous variables were compared with the Student t test. Overall survival (OS) and FFTF were estimated by Kaplan-Meier survival curves. Survival differences were assessed by the log-rank test. The binary regression model was conducted for treatment response rate. Odds ratios (OR) with 95% confidence interval (CI) were calculated. All reported P values were 2 sided, and differences were considered statistically significant at P < .05.

The median follow-up period was calculated from the end date of RT until last documented follow-up visit in our electronic health system records. Overall survival (OS) was defined from the end date of RT to the date of death from any cause. FFTF was defined from the end date of RT to any local/regional disease recurrence found on subsequent biopsies after achieving CR, or receipt of salvage treatment post RT for persistent residual disease. Complete response rate (CR) was defined based on the number of complete remissions at the first endoscopic assessment.

Results

Forty-eight patients who received RT for gastric MALT lymphoma (gMALT) were retrieved. Six patients were excluded due to lack of follow up data. The final cohort included 42 eligible patients.

Patient baseline and tumor clinicopathologic characteristics are outlined in Table 1. All patients were stage I (n = 40) or II (n = 2). The median age of this cohort was 71 years (range, 25-88). The majority of patients had a normal serum lactate dehydrogenase level (n = 35), no autoimmune disease (n = 32), and no B symptoms (n = 40). Most patients had a Marginal Zone Lymphoma International Prognostic Index (MALT-IPI) score of 0 (n = 17) or 1 (n = 18), and the disease was located in the body of the stomach (n = 14). H. pylori infection was identified in 11 patients (26.2%), half of which also had an autoimmune disease. PET-CT was performed in 30 patients (71.4%). Of these, 16 patients (53.3%) had abnormal gastric avidity. Patients’ characteristics were not significantly different between the 2 treatments groups except for sex (P = .029).

Table 1

Patients demographics and clinicopathologic characteristics

All patients	Value or no. (%)
Characteristics	All patients (n = 42)	Reduced RT dose ≤27 Gy (n = 16)	Standard RT dose ≥30 Gy (n = 26)	P value
Age at diagnosis, mean (range)	71 (25-88)	67.5 (25-86)	73 (47-88)	.34
Sex
Female	22 (52.4)	12 (75)	10 (38.5)	.029
Male	20 (47.6)	4 (25)	16 (61.5)
Ethnicity
Hispanic or Latino	1 (2.4)	0 (0)	1 (3.9)	1.00
Non-Hispanic or Latino	41 (97.6)	16 (100)	25 (96.2)
Stage
IEA	38 (90.5)	14 (87.5)	24 (92.3)	.132
IEB	2 (4.75)	2 (12.5)	0 (0)
IIEA	2 (4.75)	0 (0)	2 (7.7)
Elevated LDH
No	35 (83.3)	14 (87.5)	21 (80.8)	.823
Yes	2 (4.8)	0 (0)	2 (7.7)
Unknown	5 (11.9)	2 (12.5)	3 (11.5)
MALT-IPI
0	17 (40.5)	8 (50)	9 (34.6)	.710
1	18 (42.9)	6 (37.5)	12 (46.2)
2	2 (4.7)	0 (0)	2 (7.7)
Unknown	5 (11.9)	2 (12.5)	3 (11.5)
B symptoms
No	40 (95.2)	14 (87.5)	26 (100)	.139
Yes	2 (4.8)	2 (12.5)	0 (0)
Multifocal
No	27 (64.3)	9 (56.2)	18 (69.2)	.511
Yes	15 (35.7)	7 (43.8)	8 (30.8)	.793
Disease location
Antrum	7 (16.7)	3 (18.8)	4 (15.4)
Body	14 (33.3)	4 (25)	10 (38.5)
Fundus	6 (14.3)	2 (12.5)	4 (15.4)
Multifocal	15 (35.7)	7 (43.8)	8 (30.8)
H. Pylori infection
No	31 (73.8)	11 (68.75)	20 (76.9)	.720
Yes	11 (26.2)	5 (31.25)	6 (23.1)
Autoimmune disease
No	32 (76.2)	12 (75)	20 (76.9)	1.00
Yes	10 (23.8)	4 (25)	6 (23.1)
Lymph nodes on CT
No	40 (95.2)	16 (100)	24 (92.3)	.517
Yes	2 (4.8)	0 (0)	2 (7.7)
PET-CT
No	12 (28.6)	2 (12.5)	10 (38.5)	.09
Yes	30 (71.4)	14 (87.5)	16 (61.5)
PET avid gastric lesion
No	14 (33.3)	6 (37.5)	8 (30.8)	.183
Yes	16 (38.1)	8 (50)	8 (30.8)
PET not done	12 (28.6)	2 (12.5)	10 (38.5)

Abbreviations: CT = computed tomography; LDH = lactate dehydrogenase; MALT-IPI = Marginal Zone Lymphoma International Prognostic Index; PET = positron emission tomography; RT = radiation therapy.

Antimicrobial and systemic therapy administered before RT

Fourteen patients received antibiotics (33.3%; Table 2). All patients who were H. pylori positive converted to H. Pylori negative after receiving antibiotics, but none achieved CR for the gMALT lymphoma. Four patients received rituximab before RT (9.5%); however, none of these patients achieved a CR with systemic therapy. No patient received concurrent systemic therapy with RT. Regardless of previous antibiotics or systemic treatments, all patients (n = 42) had residual biopsy proven gMALT lymphoma before RT.

Table 2

Treatment characteristics

All Patients	Value or no. (%)
Characteristics	All patients (n = 42)	Reduced RT dose ≤27 Gy (n = 16)	Standard RT dose ≥30 Gy (n = 26)	P value
Radiation dose and fractionation
2340/13	1 (2.4)	1 (6.3)	0 (0.0)	<.001
2400/12	10 (23.8)	10 (62.5)	0 (0.0)
2520/14	2 (4.8)	2 (12.5)	0 (0.0)
2550/17	1 (2.4)	1 (6.3)	0 (0.0)
2700/15	2 (4.8)	2 (12.5)	0 (0.0)
3000/15	1 (2.4)	0 (0.0)	1 (3.8)
3000/17	1 (2.4)	0 (0.0)	1 (3.8)
3000/20	19 (45.2)	0 (0.0)	19 (73.1)
3060/17	5 (11.9)	0 (0.0)	5 (19.2)
RT technique
3D	17 (40.5)	5 (31.3)	12 (46.2)	.518
Static IMRT or VMAT	25 (59.5)	11 (68.8)	14 (53.8)
Breath technique
DIBH	10 (23.8)	5 (31.3)	5 (19.2)	.465
FB +/− ITV	32 (76.2)	11 (68.8)	21 (80.8)
Antibiotics before RT
Yes	14 (33.3)	5 (31.3)	9 (34.6)	1.00
No	28 (66.7)	11 (68.8)	17 (65.4)
Rituximab before RT
Yes	4 (9.5)	1 (6.3)	3 (11.5)	1.00
No	38 (90.5)	15 (93.8)	23 (88.5)
Salvage treatment post RT
Yes	4 (9.5)	0 (0.0)	4 (15.4)	.28
No	38 (90.5)	16 (100.0)	22 (84.6)
Median follow-up time, mo (range)	29.5 (6-85)	16 (6-85)	43 (11-74)	.004
Mean time to first follow-up endoscopy, mo (range)	3 (1-11)	3.5 (2-11)	3 (1-6)	.507

Abbreviations: 3D = 3-dimensional; DIBH = deep-inspiration breath hold; FB = free breathing; IMRT = intensity modulated radiation therapy; RT = radiation therapy; ITV = internal target volume; VMAT = volumetric modulated arc therapy.

Radiation therapy

Twenty-six patients (61.9%) were treated with standard dose RT, 30 to 36 Gy, and 16 (38.1%) were treated with reduced dose RT, 23.5 to 27 Gy. In the standard RT group, most patients (n = 19, 73.1%) were treated with 30 Gy in 20 fractions. In the reduced dose RT group, most patients (n = 10, 62.5%) were treated with 24 Gy in 12 fractions. Two patients were treated with static field IMRT (5%), 23 with VMAT (55%), and 17 with 3D conformal RT (40%). Ten patients (23.8%) were treated with DIBH and 32 (76.2%) in free-breathing planned with an ITV from the 4D CT (n = 26, 62.9%) or without an ITV (n = 6, 14.3%; Table 2).

Outcomes

The median follow-up for all patients was 29.5 months. The standard RT group had a significantly (P = .004) longer median follow-up period (43 months) compared with the reduced dose RT group (16 months; Table 2). Median time to first follow-up endoscopy was 3 months (range, 1-11). Thirty-six patients (86%) achieved CR, and 6 patients (14%) achieved PR on the first endoscopic assessment after the completion of RT. Five of the PR patients were in the standard RT group and one was in the reduced RT dose group. Four PR patients received salvage treatment with Rituximab (n = 3; 75%) or Rituximab + Cyclophosphamide (n = 1; 25%). The timing of the salvage treatment was based on the patient disease status and overall clinical picture. These 4 patients had salvage treatment at 5-, 7-, 18-, and 34-months post RT. Among those who had a PR, all but one had subsequent endoscopies to evaluate for possible conversion to CR. The median time between end of RT and last subsequent endoscopy in these patients was 26 months (range, 3-37). Only one converted to CR at 18 months post salvage therapy and belonged to the standard RT group. Among those who had CR, only one patient had locally relapsed disease at 50 months and belonged to the standard RT group. The relapse involved the stomach body and fundus without nodal involvement. This patient had a MALT-IPI score of 1, stage IE disease based on PET staging, no H. pylori infection and did not receive prior antibiotics or Rituximab before RT. There were 4 deaths in the cohort, all in the standard RT group. Only one death was attributed to gMALT lymphoma. This patient had a MALT-IPI score of 1, stage IE disease based on PET staging, no H. pylori infection and did not receive antibiotics or Rituximab before RT. The patient achieved PR to RT but never converted to CR despite receiving salvage Rituximab. Before his death, he had persistent gastrointestinal symptoms including abdominal fullness, lack of appetite, ongoing acid reflux, weight loss, and mild anemia (hemoglobin 10.9). Unfortunately, these symptoms led to failure to thrive in a 90-year-old who was not a candidate for additional therapy. The rest were either in CR at the time of death (n = 2) or had stable residual lymphoma with no significant toxicity from RT (n = 1).

The complete response rate (CR) at a median time of 3 months was 86% (95% confidence interval [CI], 0.71%-0.95%) for the whole cohort, 81% (95% CI, 0.61%-0.93%) for standard RT, and 94% (95% CI, 0.69%-0.99%) for reduced RT group. The 1-year overall survival (OS) was 100% in both groups. The 1-year FFTF was 100% in the reduced RT group and 92% in the standard RT group. The 2-years FFTF and OS of the whole cohort were 92% and 96%, respectively. When CR was assessed by the binary logistic regression method, standard dose RT compared with reduced dose RT (statistical reference) had an odds ratio (OR) of 0.28 (95% CI, 0.03%-2.65%), not statistically significant (P = .267). Similarly, there was no significant difference in the OS and FFTF when assessed by the KM method and compared by the log-rank test (P = .38, and P = .18; Fig. 1, respectively). When the response rate was taken as an outcome, there was no significant difference in the patients’ and treatment's characteristics between complete and partial responders except for sex.

Fig. 1

Kaplan-Meier plot showing the freedom from treatment failure of the 2 treatment groups. Abbreviation: RT = radiation therapy.

Dosimetric analysis and toxicity

Mean absolute dose to the liver, right and left kidneys, and mean V20 and absolute dose to the heart are presented in Table 3. The mean dose for all organs was lower in the reduced dose RT group. However, only the mean absolute dose to the liver, mean V20 dose and mean absolute dose to the heart were significantly lower (P <.001, P = .001, P <.001, respectively).

Table 3

Dosimetric analysis showing the difference in the mean organ dosage between the 2 treatment groups

All patients	Dose in Gy
	Total (n = 42)	Reduced RT dose ≤27 Gy (n = 16)	Standard RT dose ≥30 Gy (n = 26)	P value
Mean absolute right kidney dose (SD)	3.3 (2.6)	2.6 (2.0)	3.7 (2.9)	.177
Mean absolute left kidney dose (SD)	6.1 (4.4)	5.1 (3.5)	6.7 (4.9)	.256
Mean absolute liver dose (SD)	11.2 (3.5)	8.8 (2.9)	12.7 (3.1)	<0.001
Mean V20% heart dose (SD)	9.7% (6.6)	5.5% (4.7)	12.4% (6.2)	0.001
Mean absolute heart dose (SD)	588.05 (277.86)	406.67 (198.42)	699.70 (262.64)	<0.001

Abbreviations: SD = standard deviation; V20 = percentage of an organ receiving at least 20 Gy.

Toxicities among the 2 treatment groups were documented and compared (Table 4). The most common toxicity was nausea (n = 24, 57.1%). This is followed by fatigue (n = 22, 52.4%), anorexia (n = 6, 14.2%), pain (n = 4, 9.5%), diarrhea (n = 3, 7.2%), dyspnea (n = 2, 4.8%), vomiting (n = 1, 2.4%), dehydration (n = 1, 2.4%), anemia (n = 1, 2.4%), dermatitis (n = 1, 2.4%), and pericarditis (n = 1, 2.4%). Table 4 details the toxicity grade. There was no significant difference between the 2 treatment groups in terms of toxicity (P = .27). Overall toxicity taken as an outcome was not significantly different among those who had autoimmune disease (P = .404) or were treated with IMRT versus 3D (P = .490), or DIBH versus ITV (P = .213).

Table 4

Grade of various toxicities among the 2 treatment groups

All patients	Value or no. (%)
Characteristics	All patients (n = 42)	Reduced RT dose ≤27 Gy (n = 16)	Standard RT dose ≥30 Gy (n = 26)	P value
Nausea
G1	21 (50.0)	9 (56.3)	12 (46.2)	.559
G2	3 (7.1)	0 (0.0)	3 (11.5)
None	18 (42.9)	7 (43.8)	11 (42.3)
Vomiting
G3	1 (2.4)	1 (6.3)	0 (0.0)	.381
None	41 (97.6)	15 (93.8)	26 (100.0)
Diarrhea
G1	2 (4.8)	2 (12.5)	0 (0.0)	.139
G2	1 (2.4)	0 (0.0)	1 (3.8)
None	39 (92.9)	14 (87.5)	25 (96.2)
Fatigue
G1	17 (40.5)	7 (43.8)	10 (38.5)	.906
G2	5 (11.9)	2 (12.5)	3 (11.5)
None	20 (47.6)	7 (43.8)	13 (50.0)
Dehydration
G1	1 (2.4)	0 (0.0)	1 (3.8)	1.00
None	41 (97.6)	16 (100.0)	25 (96.2)
Pain
G1	3 (7.1)	2 (12.5)	1 (3.8)	.239
G2	1 (2.4)	1 (6.3)	0 (0.0)
None	38 (90.5)	13 (81.3)	25 (96.2)
Anorexia
G1	3 (7.1)	1 (6.3)	2 (7.7)	1.00
G2	3 (7.1)	1 (6.3)	2 (7.7)
None	36 (85.7)	14 (87.5)	22 (84.6)
Dyspnea
G1	1 (2.4)	1 (6.3)	0 (0.0)	.139
G2	1 (2.4)	1 (6.3)	0 (0.0)
None	40 (95.2)	14 (87.5)	26 (100.0)
Anemia
G1	1 (2.4)	1 (6.3)	0 (0.0)	.381
None	41 (97.6)	15 (93.8)	26 (100.0)
Dermatitis
G1	1 (2.4)	0 (0.0)	1 (3.8)	1.00
None	41 (97.6)	16 (100.0)	25 (96.2)
Pericarditis
G2	1 (2.4)	0 (0.0)	1 (3.8)	1.00
None	41 (97.6)	16 (100.0)	25 (96.2)
Toxicity of any type and grade
No	10 (23.8)	2 (12.5)	8 (30.8)	.270
Yes	32 (76.2)	14 (87.5)	18 (69.2)

Abbreviations: G1 = grade 1 toxicity; G2 = grade 2 toxicity; G3 = grade 3 toxicity.

Discussion

This is the largest reported study to date evaluating the outcome of reduced dose RT in the treatment of gMALT lymphoma. In this cohort, patients treated with reduced dose RT (approximately 24 Gy) had a similar complete response rate and freedom from treatment failure to patients treated with standard dose RT (approximately 30 Gy). Reduced dose RT was recently implemented at our institution accounting for the shorter follow-up period in this subgroup. As such, binary logistic regression analysis for complete response rate, a time insensitive statistical measure, was performed, eliminating the effect of the follow-up period as the outcome is based on the first endoscopy. Despite that, there was no significant difference in the CR, FFTF, or OS between the 2 groups.

Previous studies have shown the excellent response RT has on the treatment of gMALT lymphoma with standard dose RT, 30 Gy. Memorial Sloan Kettering Cancer Center reported a 5-years relapse-free survival of 60% and OS of 89% for combined various sites of MALT lymphoma, including 155 gMALT patients treated mostly to 30 Gy. Princess Margaret Hospital reported a 10-years recurrence-free rate (RFR) of 92% among 25 patients with gMALT lymphoma treated to 20 to 35 Gy. The International Extranodal Lymphoma Study Group reported an 88% 10-year FFTF, 70% 10-year OS, and 96% CR in 102 stage I or II gMALT lymphoma patients. This study involved patients treated between 1981 and 2004. The median total RT dose was 40Gy (range, 26-46 Gy) administered through 3D techniques. There was no association between treatment dose and treatment failure. Patients treated to the stomach and perigastric lymph nodes had similar excellent outcomes with less toxicity compared with those treated to the whole abdomen, leading to the abandonment of whole abdomen treatment. Therefore, this study recommended a de-escalation of treatment in terms of radiation fields, but not doses.

In the same token, dose de-escalation was observed in several studies for other (nongMALT) indolent, low-grade B-cell lymphomas. A randomized clinical trial and several retrospective studies, suggested that 24 to 25 Gy is effective for low-grade B-cell lymphoma. In some cases, 4 Gy might be effective as well., These studies in conjunction with the indolent nature and excellent prognosis of gMALT lymphoma, calls for lower RT doses in the treatment of gMALT lymphoma.

HELYX II trial randomized stage I or II gMALT patients to either receive 25.2 Gy (n = 10) or 36 Gy (n = 12). No recurrence was observed at 79 months follow-up in both arms. Moreover, the CR at a median time of 1.85 months was 100%. Similarly, Pinnix et al recently reported similar outcomes between gMALT lymphoma patients treated with 24 Gy (n = 11) and 30 Gy. The 2-years FFTF and OS were 100% and 97%, respectively, and the CR at a median time of 3.5 months was 94%. Our study reinforces the results of these 2 studies as 15/16 (94%) patients treated with reduced dose RT had CR at the first endoscopic assessment. The 1-year FFTF and OS were 100% in the reduced RT group. Table 5 outlines and compares the different studies that evaluated the role of RT in the treatment of gMALT lymphoma.

Table 5

Studies that evaluated the role of radiation therapy in the treatment of gastric MALT lymphoma

Study	No. of gMALT patients	RT dose range in Gy	Disease control rate of the whole cohort	OS of the whole cohort	CR of the whole cohort
Memorial Sloan Kettering Cancer Center21	155	30 (no specific upper and lower ranges)	N/A for gMALT alone	N/A for gMALT alone	N/A for gMALT alone
Princess Margaret Hospital22	25	20-35	92% RFR at 10 y	N/A for gMALT alone	N/A for gMALT alone
The International Extranodal Lymphoma Study Group14	102	26-46	88% FFTF at 10 and 15 y	70% at 10 y	96% (median time N/A)
HELYX II trial25	22	25.2-36	100% RFR at 6.5 y	N/A	100% at a median time of 1.85 months
MD Anderson18	32	24-36	100% FFTF at 2 y	97% at 2 y	94% at a median time of 3.5 mo
Present study	42	23.5-36	92% FFTF at 2 y	96% at 2 y	86% at a median time of 3 mo

Abbreviations: FFTF = freedom from treatment failure; gMALT = of mucosa-associated lymphoid tissue; RFR = recurrence-free rate; RT = radiation therapy; N/A = not available; OS = overall survival.

In our cohort, patients treated with lower dose RT had significantly lower radiation dose to the heart and liver, consistent with prior results. Although this is true, patients treated more recently also underwent treatment with DIBH, which also could contribute to more favorable dosimetry. A larger proportion of reduced dose RT patients were treated with DIBH compared with standard dose (31% vs 19%). V20 heart dose, in addition to mean dose, was used to assess for cardiotoxicity to evaluate exposure of the inferior margin of the heart during gMALT treatment.28, 29, 30 Cardiovascular toxicity is a substantial concern in lymphoma patients., Given the linear, no-threshold radiation dose response relationship between mean heart dose and risk of cardiovascular,33, 34, 35 any possible reduction of heart dose may benefit lymphoma patients. Therefore, the significantly lower heart dose in the reduced RT group may be clinically valuable. Furthermore, recent literature has suggested radiation therapy may have a role in the risk of developing diabetes mellitus (DM). In a recent publication by van Nimwegen et al, higher doses of RT (≥36 Gy) increased the risk of developing DM in patients with Hodgkin lymphoma. Lower doses (10-35 Gy) did not. Other studies showed that even lower doses of RT (≥10 Gy or ≤26 Gy) are associated with increased risk of developing DM. Although we did not assess radiation dose to the pancreas in our study, lower RT doses will likely reduce exposure of the pancreas and risk of developing DM. Overall, acute or early toxicity was not significantly different between the 2 groups, likely secondary to the low relative dose used for the treatment of lymphomas. The use of IMRT and DIBH also minimizes radiation exposure to organs at risk and therefore, lowers toxicity. Moreover, higher percentage of reduced RT patients received treatment planning with IMRT or VMAT that could have further contributed to the lower radiation dose to the organs at risk. The success of dose reduction as shown in this study raises the question of whether ultralow dose radiation therapy can obtain similar results. A prospective clinical trial is currently evaluating the 1 year response rate for 4 Gy in 2 fractions.

This study has several limitations. The RT dose was not randomized and was given based on physician preference. Moreover, the sample size was small, and number of events was low which underpowered the statistical analysis and the generalizability of our conclusions. Furthermore, the follow-up period was limited especially for the reduced RT group. Thus, continued follow-up is warranted to confirm disease control.

Conclusions

This study further illustrates the excellent outcome of RT as frontline and salvage treatment for gMALT lymphoma. Reduced dose of RT (23.5-27 Gy) achieves excellent first posttreatment response rate, comparable to standard dose radiation therapy, yielding low toxicity and a shorter treatment course for patients. The reduced dose RT group will continue to be followed to confirm these results and long-term outcomes.