TO THE EDITOR:

Rituximab has transformed the treatment of multiple hematologic disorders over the past 2 decades, leading to higher response rates and longer survival; however, drug hypersensitivity reactions (DHRs) including allergies, serum sickness, and infusion reactions remain common.1,2 DHRs of any grade have been reported to be as high as 77%, and grade 3 or higher DHRs have been reported to occur in ∼0.5% to 10% of patients.3,4 The rate of rituximab discontinuation because of toxicity has varied across studies.3,4 DHRs are heterogenous and commonly associated with the first exposure to rituximab. Moderate infusion reactions are generally successfully rechallenged at lower infusion rates. For severe reactions, multiple desensitization protocols have been reported with high rates of success, though some patients have continued intolerance despite these measures. Other patients may be deemed ineligible to rechallenge with rituximab because of the type or severity of the reaction.4 

Rituximab and obinutuzumab both target CD20 and lead to antibody-dependent cellular cytotoxicity and cell death of CD20 expressing B cells.5 Although rituximab is a type I chimeric mouse/human monoclonal antibody, obinutuzumab is a humanized type II monoclonal antibody, which replaces the mouse antibody framework with human sequences.5-7 Humanized type II monoclonal antibodies have been shown to potentially be less immunogenic.6,7 This could lead to a lower risk of certain DHRs because of lower foreign antigens found in humanized monoclonal antibodies.6,7 In addition, the correlation of lower DHR with ongoing anti-CD20 therapy is hypothetically due to B-cell depletion from each cycle of anti-CD20 therapy.8 Theoretically, cross-reactivity in the form of DHR between anti-CD20 agents could be low because of multiple differences between each drug and previous B-cell depletion, though the practice of obinutuzumab use after rituximab intolerance is limited primarily to case reports and small case series.9-14 Here, we report our single-center experience using off-label obinutuzumab after rituximab discontinuation from DHR or intolerance among patients with any hematologic disorder.

After the institutional review board authorization from The James Cancer Hospital at The Ohio State University, patients were identified retrospectively, based on the disease state and line of therapy at the time of administration, using an off-label pharmacy database that was used to aid in insurance approval for medications not approved by the US Food and Drug Administration. The study was conducted in accordance with the Declaration of Helsinki. In total, 21 patients from 2015 to 2022 were identified on the basis of their insurance submissions for treatment with obinutuzumab because of rituximab-induced DHR or intolerance. Four patients received insurance denial and did not receive any further anti-CD20–directed therapy. Seventeen patients received insurance approval and were treated with obinutuzumab. Patient characteristics, disease course, responses, and DHRs were assessed. All DHRs to rituximab and obinutuzumab were graded via the common terminology criteria for adverse events version 5.0 classification system, with severe DHR being categorized as a reaction with any grade ≥3. The primary outcome was the successful administration of obinutuzumab without discontinuation because of a DHR.

The median age of the cohort was 65 years (range, 38-81 years; Table 1). All anti-CD20 therapy was lymphoma-directed with the following exceptions: 1 patient with a nonmalignant disease (thrombotic thrombocytopenia purpura), 1 with multiple occurrences of Epstein-Barr virus (EBV) reactivation who required anti-CD20 therapy, and 1 with hairy cell leukemia who was administered with obinutuzumab to treat cold agglutinin hemolysis and thrombocytopenia. The median number of rituximab doses initiated before being discontinued, excluding desensitization infusions, was 2 (range, 1-11). All patients had at least a grade 3 reaction to rituximab, and 5 patients developed a grade 4 reaction, which led to discontinuation. Three patients (18%) were unsuccessfully treated with a rituximab desensitization protocol before obinutuzumab administration (Table 1). The most common type of DHR or reason for intolerance was anaphylaxis or anaphylaxis-like reactions. Serum sickness was observed among 6 patients. Other DHRs or intolerances included severe rash indicative of a true allergy, neurologic toxicity among other symptoms, and debilitating myalgia not formally diagnosed as serum sickness.

Table 1.

Outcomes of patients treated with obinutuzumab after rituximab intolerance

Patient numberAge (y)Hematologic disorderGrade of rituximab reaction leading to discontinuationDescription of rituximab reactionDoses of rituximab before DHR leading to discontinuation (excluding desensitizations)Serum sicknessRituximab desensitization protocol usedRegimen with obinutuzumabLine of therapy obinutuzumab was added toDHR to obinutuzumab of any gradeDecription of obinutuzumab reactionGrade 3+
DHR to obinutuzumab
Obinutuzumab discontinuation due to DHRTotal doses of obinutuzumab givenBest response
38 TTP Grade 3 Severe arthralgia, rash, malaise, and fever Yes No Monotherapy Yes Nausea, light-headedness, and rigors with recurrence of symptoms Yes No CR 
64 MZL Grade 3 Uticarial rash No No Obinutuzumab + bendamustine No N/A No No CR 
62 MZL Grade 4 Anaphylaxis No No Obinutuzumab + bendamustine Yes Mild rigors that resolved without stopping infusion No No No response documented 
73 Transformed DLBCL from LPL Grade 3 Itching, chest pressure radiating to left arm, numbness, chills, and neurotoxicity No Yes Obinutuzumab + CHOP No N/A No No CR 
81 DLBCL Grade 4 Hemodynamic instability, unresponsive, subsequent code blue with epinephrine use No No Obinutuzumab + mini-CHOP Yes Flushing, shortness of breath, hypertension, and rigors Yes Yes No response documented 
75 LPL Grade 3 Flushing, neck rash, shortness of breath, hypotension with syncope, and rigors No No Obinutuzumab + bendamustine No N/A No No CR 
65 Nodal MZL Grade 3 Fever, rash, itching, and myalgia 11 Yes No Obinutuzumab + bendamustine No N/A No No CR 
41 FL Grade 4 Hives, throat closing, and shortness of breath No Yes Obinutuzumab + lenalidomide 5 and 7 No N/A No No 12 PR 
64 MCL Grade 3 Fever, rash, and myalgia Yes No Obinutuzumab + lenalidomide Yes Rigors and nausea No No No response documented 
10 72 Transformed CNS DLBCL from FL Grade 4 Anaphylaxis No Yes Obinutuzumab + high dose methotrexate No N/A No No PR 
11 54 Cold agglutinin–induced hemolytic anemia and thrombocytopenia with MAP2K1- mutated HCL Grade 4 Hypoxemia, hives, and bradycardia No No Trametinib + obinutuzumab Yes Chills, rigors, nausea No No Baseline transfusion dependent to Hg >10 and plt >100 000 for 6 months 
12 66 LPL Grade 3 Diffuse myalgia and limb swelling No No Obinutuzumab + bendamustine No N/A No No CR 
13 61 FL Grade 3 Fever, rash, and myalgia Yes No Obinutuzumab + bendamustine No N/A No No CR 
14 59 LPL Grade 3 Fever, rash, and myalgia Yes No Obinutuzumab + bendamustine No N/A No No PR 
15 70 MZL Grade 3 Myalgia leading to gross motor dysfunction Yes No Obinutuzumab + bendamustine No N/A No No Has not completed therapy to date 
16 78 MZL Grade 3 Unspecified infusion-related reaction No No Obinutuzumab + bendamustine Yes Chest tightness, nausea, shortness of breath No No Has not completed therapy to date 
17 69 Multiple episodes of EBV reactivation Grade 3 Rash No No Obinutuzumab No N/A No No 14 Undetectable EBV by PCR 
Patient numberAge (y)Hematologic disorderGrade of rituximab reaction leading to discontinuationDescription of rituximab reactionDoses of rituximab before DHR leading to discontinuation (excluding desensitizations)Serum sicknessRituximab desensitization protocol usedRegimen with obinutuzumabLine of therapy obinutuzumab was added toDHR to obinutuzumab of any gradeDecription of obinutuzumab reactionGrade 3+
DHR to obinutuzumab
Obinutuzumab discontinuation due to DHRTotal doses of obinutuzumab givenBest response
38 TTP Grade 3 Severe arthralgia, rash, malaise, and fever Yes No Monotherapy Yes Nausea, light-headedness, and rigors with recurrence of symptoms Yes No CR 
64 MZL Grade 3 Uticarial rash No No Obinutuzumab + bendamustine No N/A No No CR 
62 MZL Grade 4 Anaphylaxis No No Obinutuzumab + bendamustine Yes Mild rigors that resolved without stopping infusion No No No response documented 
73 Transformed DLBCL from LPL Grade 3 Itching, chest pressure radiating to left arm, numbness, chills, and neurotoxicity No Yes Obinutuzumab + CHOP No N/A No No CR 
81 DLBCL Grade 4 Hemodynamic instability, unresponsive, subsequent code blue with epinephrine use No No Obinutuzumab + mini-CHOP Yes Flushing, shortness of breath, hypertension, and rigors Yes Yes No response documented 
75 LPL Grade 3 Flushing, neck rash, shortness of breath, hypotension with syncope, and rigors No No Obinutuzumab + bendamustine No N/A No No CR 
65 Nodal MZL Grade 3 Fever, rash, itching, and myalgia 11 Yes No Obinutuzumab + bendamustine No N/A No No CR 
41 FL Grade 4 Hives, throat closing, and shortness of breath No Yes Obinutuzumab + lenalidomide 5 and 7 No N/A No No 12 PR 
64 MCL Grade 3 Fever, rash, and myalgia Yes No Obinutuzumab + lenalidomide Yes Rigors and nausea No No No response documented 
10 72 Transformed CNS DLBCL from FL Grade 4 Anaphylaxis No Yes Obinutuzumab + high dose methotrexate No N/A No No PR 
11 54 Cold agglutinin–induced hemolytic anemia and thrombocytopenia with MAP2K1- mutated HCL Grade 4 Hypoxemia, hives, and bradycardia No No Trametinib + obinutuzumab Yes Chills, rigors, nausea No No Baseline transfusion dependent to Hg >10 and plt >100 000 for 6 months 
12 66 LPL Grade 3 Diffuse myalgia and limb swelling No No Obinutuzumab + bendamustine No N/A No No CR 
13 61 FL Grade 3 Fever, rash, and myalgia Yes No Obinutuzumab + bendamustine No N/A No No CR 
14 59 LPL Grade 3 Fever, rash, and myalgia Yes No Obinutuzumab + bendamustine No N/A No No PR 
15 70 MZL Grade 3 Myalgia leading to gross motor dysfunction Yes No Obinutuzumab + bendamustine No N/A No No Has not completed therapy to date 
16 78 MZL Grade 3 Unspecified infusion-related reaction No No Obinutuzumab + bendamustine Yes Chest tightness, nausea, shortness of breath No No Has not completed therapy to date 
17 69 Multiple episodes of EBV reactivation Grade 3 Rash No No Obinutuzumab No N/A No No 14 Undetectable EBV by PCR 

CHOP, cyclophosphamide, doxorubicin, vincristine, and prednisone; CNS, central nervous system; DLBCL, diffuse large B-cell lymphoma; FL, folicular lymphoma; HCL, hairy cell leukemia; Hg, hemoglobin; LPL, lymphoplasmacytic lymphoma; MCL, mantle cell lymphoma; MZL, marginal zone lymphoma; N/A, not applicable; PCR, polymerase chain reaction; plt, platelet; TTP, thrombotic thrombocytopenia purpura.

After the administration of obinutuzumab, DHRs of any grade occurred among 6 patients (35%). Grade ≥3 DHRs were uncommon, though 2 patients (12%) experienced a severe reaction. One of the grade 3 DHRs with obinutuzumab was an infusion reaction requiring rescue medications and interruption of the infusion; however, the infusion was subsequently completed. The other grade 3 DHR led to the discontinuation of obinutuzumab because of the severity of both the rituximab and obinutuzumab reactions. Overall, administration of obinutuzumab without discontinuation because of DHRs was successful for 16 of 17 patients (94%) including all 3 patients who had not successfully completed rituximab desensitization protocols.

Within the heterogeneous disease states reported in the cohort, responses to obinutuzumab were common. Seven patients had a complete response, 3 had a partial response, 1 had hemoglobin and platelet response for their cold agglutin hemolysis and thrombocytopenia, and 1 was cleared of EBV using polymerase chain reaction after EBV reactivation. Given the heterogeneity of diseases and treatment conditions associated with obinutuzumab use, clinical outcomes were not a primary outcome of this analysis.

The retrospective design and small sample size are limitations of the study. The clinical determination and diagnosis of each allergy and intolerance varied across providers. Although the definitions of DHR and intolerance defined in prospective trials were not identical among treating physicians, this does represent a real-world experience of rituximab DHR and intolerance that is commonly observed in the clinics.

To our knowledge, this is the largest published cohort of patients treated with obinutuzumab after a rituximab DHR or intolerance. Obinutuzumab administration was safe with more than 90% of the patients completing the obinutuzumab infusion. This analysis does not compare the effectiveness of rituximab desensitization with that of obinutuzumab use after rituximab DHR or intolerance. It is important to note that rituximab desensitization can be time-intensive and costly because patients are frequently admitted to the hospital and require direct nursing care during the desensitization procedure. Rituximab desensitization may not be an option for all patients based on the type or severity of the reaction. Here, we report that obinutuzumab use is an acceptable alternative after rituximab DHR or intolerance and can be safe even after failed rituximab desensitization. Further studies with a large cohort of patients are warranted to add to the growing body of evidence that obinutuzumab has low cross-reactivity in the form of DHR toward rituximab.

Contribution: T.S., J.L., T.W., and T.V. contributed to the concept and design of this study and participated in the initial draft of the manuscript; T.S. and A.L. performed the data collection; and all authors read and agreed to the final version of the manuscript.

Conflict-of-interest disclosure: The authors declare no competing financial interests.

Correspondence: Timothy Schieber, Department of Pharmacy, James Cancer Hospital and Solove Research Institute at The Ohio State University, Columbus, OH 43210; e-mail: timothy.schieber@osumc.edu.

1.
Salles
G
,
Barrett
M
,
Foa
R
, et al
.
Rituximab in B-cell hematologic malignancies: a review of 20 years of clinical experience
.
Adv Ther
.
2017
;
34
(
10
):
2232
-
2273
.
2.
Giulino
LB
,
Bussel
JB
,
Neufeld
EJ
;
Pediatric and Platelet Immunology Committees of the TMH Clinical Trial Network
.
Treatment with rituximab in Benign and malignant hematologic disorders in children
.
J Pediatr
.
2007
;
150
(
4
):
338
-
344, 344.e1
.
3.
van Vollenhoven
RF
,
Emery
P
,
Bingham
CO
, et al
.
Long-term safety of rituximab in rheumatoid arthritis: 9.5-year follow-up of the global clinical trial programme with a focus on adverse events of interest in RA patients
.
Ann Rheum Dis
.
2013
;
72
(
9
):
1496
-
1502
.
4.
Fouda
GE
,
Bavbek
S
.
Rituximab hypersensitivity: from clinical presentation to management
.
Front Pharmacol
.
2020
;
11
:
572863
.
5.
Freeman
CL
,
Sehn
LH
.
A tale of two antibodies: obinutuzumab versus rituximab
.
Br J Haematol
.
2018
;
182
(
1
):
29
-
45
.
6.
Ali
SB
,
Yuson
C
,
Hissaria
P
.
Rituximab hypersensitivity reactions and tolerance of ofatumumab therapy
.
Clin Exp Rheumatol
.
2021
;
39
(
3
):
648
-
650
.
7.
Patel
SV
,
Khan
DA
.
Adverse reactions to biologic therapy
.
Immunol Allergy Clin North Am
.
2017
;
37
(
2
):
397
-
412
.
8.
Chen
DR
,
Cohen
PL
.
Living life without B cells: is repeated B-cell depletion a safe and effective long-term treatment plan for rheumatoid arthritis?
.
Int J Clin Rheumtol
.
2012
;
7
(
2
):
159
-
166
.
9.
Manos
K
,
Grigg
A
.
Safe administration of obinutuzumab to rituximab-intolerant patients
.
Leuk Lymphoma
.
2021
;
62
(
14
):
3552
-
3554
.
10.
Al-Sarayfi
D
,
Meeuwes
FO
,
Munnink
TO
, et al
.
Successful treatment of hairy cell leukemia variant with obinutuzumab
.
Ann Hematol
.
2022
;
101
(
3
):
703
-
704
.
11.
Ghione
P
,
Joffe
E
,
De Paola
N
, et al
.
Alternative anti-CD20 antibody versus desensitization for lymphoma patients with drug hypersensitivity reactions requiring discontinuation of rituximab, obinutuzumab, or ofatumumab
.
J Clin Oncol
.
2020
;
38
(
15 suppl
). 8062-8062.
12.
Robertz
J
,
Andres
M
,
Mansouri Taleghani
B
,
Koneth
I
,
Binet
I
,
Kremer Hovinga
JA
.
Obinutuzumab in two patients suffering from immune-mediated thrombotic thrombocytopenic purpura intolerant to rituximab
.
Am J Hematol
.
2019
;
94
(
10
):
E259
-
E261
.
13.
Blase
JR
,
Frame
D
,
Michniacki
TF
,
Walkovich
K
.
Case report: use of obinutuzumab as an alternative monoclonal anti-CD20 antibody in a patient with refractory immune thrombocytopenia complicated by rituximab-induced serum sickness and anti-rituximab antibodies
.
Front Immunol
.
2022
;
13
:
863177
.
14.
Pirich
T
,
Zwickl-Traxler
E
,
Pecherstorfer
M
,
Singer
J
.
Tolerability of obinutuzumab therapy in patients with rituximab-relapsed/refractory B-cell malignancies--a retrospective single center cohort study
.
Oncotarget
.
2018
;
9
(
52
):
29944
-
29956
.

Author notes

Data are available on request from the corresponding author, Timothy Schieber (timothy.schieber@osumc.edu).