The Effect of Rituximab on Antiphospholipid Titers in Patients with Antiphospholipid Syndrome

• Background
• Methods
• Results
• Discussion/Conclusion
• References

Background

Rituximab in patients with antiphospholipid syndrome (APS) is mostly used for treating noncriteria APS manifestations such as thrombocytopenia, and is not a first- or second-line treatment for management of thrombosis. However, at times rituximab is used empirically as adjunct treatment in patients with recurrent thrombosis occurring in spite of anticoagulant therapy (i.e., anticoagulation failure) when combinations of increased anticoagulation intensity, addition of antiplatelet therapy, and reduction of all thrombotic risk factors fail to prevent recurrent thrombosis.[1] [2] Knowledge of its effect on the naturally fluctuating antiphospholipid antibody (APLA) titers is, however, limited. We sought to determine the effect of rituximab on decreasing the magnitude and type of APLA in patients with thrombotic APS.

Methods

This is a retrospective case series of adult patients (age ≥ 18) diagnosed with APS at the University of North Carolina Hospital inpatient and outpatient systems between August 2014 and August 2020. The electronic medical record encounter data were queried using the keyword “rituximab” and International Classification of Diseases 9th edition (ICD9/ICD10) codes for arterial and venous thromboses, APS, and catastrophic APS (CAPS). Venous thromboembolic events were defined as pulmonary embolism, deep vein thromboses of the upper and lower extremities, inferior vena cava, and renal veins. Arterial thromboses were considered if they affected major vessels. All thrombotic events were confirmed by chart review of radiology imaging reports. APLA titers were identified by current procedure terminology codes and considered positive if the lupus anticoagulant (LA) was positive (dilute Russell's viper venom time [DRVVT] ratio ≥1.20) in a DRVVT-based LA assay and/or hexagonal phospholipid neutralization (HPN) difference in an LA-aPTT-based assay >8 seconds, anticardiolipin (aCL) immunoglobulin G (IgG) >23 GPL, aCL IgM >10, and anti-β₂-glycoprotein (anti- β₂GPI) IgG or IgM >20 G or M units. The aCL and anti-β₂GPI positivity were arbitrarily categorized before data collection as low, medium, and high (< 40; 40–100; and >100 GPL, MPL, G units or M units, respectively).

“Time zero” was the start and stop dates of the first treatment course of rituximab. Negative or positive numbers indicated time before the start or after the stop dates, respectively. Laboratory observations 12 months before and after time zero were collected but censored after the start of the second treatment, if applicable. Titer changes are described.

Results

Thirty-seven patients with APS were identified and 28 excluded for the following reasons: no available APLA titers (n = 10); only one set of titers (n = 10); no titers obtained within 12 months of treatment (n = 5); only posttreatment titers available (n = 3). Nine patients with thrombotic APS met the inclusion criteria for the primary analysis. Here are the associated diagnoses: APS only (n = 4, including 1 patient with livedoid vasculopathy), CAPS (n = 2), APS and immune thrombocytopenia (n = 2), and APS and systemic lupus erythematosus (n = 1). The medical records were reviewed for the indication for rituximab and use of concomitant treatment. At the time of treatment with rituximab, all patients were on therapeutic anticoagulation including antiplatelet therapy if they had arterial thrombotic events. All were exclusively treated with rituximab for thrombotic manifestations of APS, including the two patients with CAPS (ID#3 and 4) who also received therapeutic plasma exchange. The sample comprised women (n = 8), median age of 47 years (40–79 years), Caucasian (n = 6), black (n = 2), and Hispanic/Latino (n = 1). The following rituximab regimens were used: 375 mg/m² weekly ×4 doses (n = 4), 1 g rituximab every 2 weeks ×2 doses (n = 3), and 1 patient treated with both doses at two independent encounters.

Prior to treatment, 3 patients were triple APLA-positive, 2 were double, and 4 were single-positive based on the presence of a moderate or high positive aCL, anti-β₂GPI IgG titers, and/or positive LA. All 3 triple-positive patients remained triple-positive after treatment, 1 of 2 double-positive patients became single-positive, and 3 of 4 single-positive patients developed negative APLA tests. Pretreatment, 6 patients had a positive LA (5/6 positive HPN difference and 4/6 positive DRVVT ratio) ([Fig. 1]).

In 2/4 patients, both the HPN and DRVVT ratio decreased, and in 2/4 both the HPN and DRVVT ratio increased. The mean decreases in HPN and DRVVT ratio were 58 seconds and 0.75, respectively. The mean increases in HPN and DRVVT ratio were 80 seconds and 0.625, respectively. The LA remained positive after treatment in all in whom the LA had been positive before treatment.

The changes in aCL and anti-β₂GPI titers per patient are displayed in [Fig. 2]. Among patients with titers in the medium range (5/6) and high range (1/6) and positive pretreatment aCL tests (6/9), all remained positive posttreatment: 3/6 remained in their pretreatment category, 1/6 increased from medium to high range, 1/6 decreased from medium to low, and 1/6 decreased from high to a medium titer range. Prior to treatment, all (3/9) aCL IgM-positive pretreatment titers were medium-range; posttreatment 2/3 became negative and 1/3 remained unchanged.

The aβ₂GPI IgG titers were abnormal in 6/9 patients. Pretreatment, 3/6 were low, 1/6 medium, and 2/6 in high-titer ranges. After treatment 3/6 remained unchanged, 2/6 increased from low to medium, 1/6 from medium to high, and 1/6 that had been negative pre-rituximab became positive. There were 2/9 pre- and posttreatment aβ2GPI IgM titers and these remained unchanged.

One of nine (1/9) patients had a recurrent thrombotic event within 1 year of rituximab treatment and died 2 years later from a spontaneous intracranial hemorrhage while on therapeutic anticoagulation and while a platelet count was 47,000 × 10⁹/L.

Discussion/Conclusion

We found that the use of rituximab in patients with APS did not meaningfully or consistently lower APLA titers. This finding is in keeping with the previous single-center prospective Erkan et al's study which showed no substantial change in the APLA profile of 19 APS patients—all patients who had positive APLA results at baseline had positive results at 24 and 52 weeks on follow-up testing.[3] In contrast, the retrospective study by Agmon-Levin et al showed that in 23 patients with APS who had pre- and post-rituximab APLA titer testing, there was a statistically significant decrease in APLA titers posttreatment in the group of 13 patients who had a clinical treatment response, but not in the group of 10 patients who did not have a clinical response.[4] Furthermore, our review of the literature of case reports and small case series shows that the effect of rituximab on APLA titers is inconsistent and equivocal—increasing, decreasing, or remaining unchanged in some patients.[5] [6] [7] [8] [9] [10] [11] [12] [13] [14]

While our study is limited by its small sample size due to the significant number of patients who had to be excluded because of nonavailability of APLA test results in the electronic medical record system, its retrospective nature, the inclusion of results obtained with various APL assays with the potential for inter-assay result variations, and the heterogeneity of the clinical phenotypes, it nonetheless serves as useful confirmatory data to the existing limited published literature that rituximab use in APS may not be a useful approach to lower APLA titers. Whether rituximab lowers future thrombosis risk in APS patients, particularly in those who have had an anticoagulation failure, has not been studied and our study does not provide an answer to this clinically important question.[8] However, the assumption that rituximab therapy as an adjunct to anticoagulation therapy might lead to a lower future thrombosis risk by lowering APLA titers is not supported by our study and may be better answered by prospective clinical trials. In summary, the results of our study, the 2013 Erkan et al study, and the limited case report and small case series literature dampen our enthusiasm to use empiric rituximab in patients with APS and recurrent venous thromboembolism to potentially lower APLA titers and, through that, the risk of recurrent thrombosis.

Conflicts of interest

None declared.

Author Contribution

K.Y. designed the study, collected the data, and was involved in the data analysis, and wrote the manuscript. S.M. designed the study and oversaw the manuscript, data collection, and analysis and manuscript writing.

H.H. performed the statistical analysis; A.D. oversaw the statistical analysis.

• References

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  CrossrefPubMedSearch in Google Scholar
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  CrossrefPubMedSearch in Google Scholar
• 11 Anandacoomarasamy A, Gibson J, McGill N. ‘Cure’ of life-threatening antiphospholipid syndrome with rituximab. Intern Med J 2006; 36 (07) 474-475
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  CrossrefPubMedSearch in Google Scholar
• 12 Ames PR, Tommasino C, Fossati G, Scenna G, Brancaccio V, Ferrara F. Limited effect of rituximab on thrombocytopaenia and anticardiolipin antibodies in a patient with primary antiphospholipid syndrome. Ann Hematol 2007; 86 (03) 227-228
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  CrossrefPubMedSearch in Google Scholar
• 13 Adamson R, Sangle S, Kaul A, Hughes GR, D'Cruz DP. Clinical improvement in antiphospholipid syndrome after rituximab therapy. J Clin Rheumatol 2008; 14 (06) 359-360
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  CrossrefPubMedSearch in Google Scholar
• 14 Tsagalis G, Psimenou E, Nakopoulou L, Laggouranis A. Effective treatment of antiphospholipid syndrome with plasmapheresis and rituximab. Hippokratia 2010; 14 (03) 215-216
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Address for correspondence

Publication History

Received: 13 January 2023

Accepted: 21 April 2023

Article published online:
05 July 2023

© 2023. The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution License, permitting unrestricted use, distribution, and reproduction so long as the original work is properly cited. (https://creativecommons.org/licenses/by/4.0/)

Georg Thieme Verlag KG
Rüdigerstraße 14, 70469 Stuttgart, Germany

• References

• 1 Kumar D, Roubey RA. Use of rituximab in the antiphospholipid syndrome. Curr Rheumatol Rep 2010; 12 (01) 40-44
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 2 Arachchillage DRJ, Laffan M. Pathogenesis and management of antiphospholipid syndrome. Br J Haematol 2017; 178 (02) 181-195
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 3 Erkan D, Vega J, Ramón G, Kozora E, Lockshin MD. A pilot open-label phase II trial of rituximab for non-criteria manifestations of antiphospholipid syndrome. Arthritis Rheum 2013; 65 (02) 464-471
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 4 Agmon-Levin N, Berman M, Harel L. et al. Rituximab for refractory manifestations of the antiphospholipid syndrome: a multicentre Israeli experience. Clin Exp Rheumatol 2021; 39 (05) 1049-1055
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 5 Berman H, Rodríguez-Pintó I, Cervera R. et al; Catastrophic Antiphospholipid Syndrome (CAPS) Registry Project Group (European Forum on Antiphospholipid Antibodies). Rituximab use in the catastrophic antiphospholipid syndrome: descriptive analysis of the CAPS registry patients receiving rituximab. Autoimmun Rev 2013; 12 (11) 1085-1090
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 6 Sciascia S, Naretto C, Rossi D, Bazzan M, Roccatello D. Treatment-induced downregulation of antiphospholipid antibodies: effect of rituximab alone on clinical and laboratory features of antiphospholipid syndrome. Lupus 2011; 20 (10) 1106-1108
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 7 Pengo V, Biasiolo A, Gresele P. et al. A comparison of lupus anticoagulant-positive patients with clinical picture of antiphospholipid syndrome and those without. Arterioscler Thromb Vasc Biol 2007; 27 (12) e309-e310
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 8 Sevim E, Willis R, Erkan D. Is there a role for immunosuppression in antiphospholipid syndrome?. Hematology (Am Soc Hematol Educ Program) 2019; 2019 (01) 426-432
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 9 Erdozain JG, Ruiz-Irastorza G, Egurbide MV, Aguirre C. Sustained response to rituximab of autoimmune hemolytic anemia associated with antiphospholipid syndrome. Haematologica 2004; 89 (09) ECR34
  MissingFormLabel

  PubMedSearch in Google Scholar
• 10 Ahn ER, Lander G, Bidot CJ, Jy W, Ahn YS. Long-term remission from life-threatening hypercoagulable state associated with lupus anticoagulant (LA) following rituximab therapy. Am J Hematol 2005; 78 (02) 127-129
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 11 Anandacoomarasamy A, Gibson J, McGill N. ‘Cure’ of life-threatening antiphospholipid syndrome with rituximab. Intern Med J 2006; 36 (07) 474-475
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 12 Ames PR, Tommasino C, Fossati G, Scenna G, Brancaccio V, Ferrara F. Limited effect of rituximab on thrombocytopaenia and anticardiolipin antibodies in a patient with primary antiphospholipid syndrome. Ann Hematol 2007; 86 (03) 227-228
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 13 Adamson R, Sangle S, Kaul A, Hughes GR, D'Cruz DP. Clinical improvement in antiphospholipid syndrome after rituximab therapy. J Clin Rheumatol 2008; 14 (06) 359-360
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 14 Tsagalis G, Psimenou E, Nakopoulou L, Laggouranis A. Effective treatment of antiphospholipid syndrome with plasmapheresis and rituximab. Hippokratia 2010; 14 (03) 215-216
  MissingFormLabel

  PubMedSearch in Google Scholar