To investigate whether a short term discontinuation of methotrexate (MTX) will improve the vaccination efficacy to seasonal influenza vaccination without deteriorating RA disease activity in a randomized clinical trial.
Rheumatoid arthritis (RA) is a chronic systemic inflammatory disease that affects the joints as the main target of the inflammation. Patients with RA require chronic treatment with disease modifying anti-rheumatic drugs (DMARDs) including methotrexate (MTX), which constitutes the mainstay of treatment. Underlying immune dysfunction and the additional immune suppression associated with treatment render patients with RA more susceptible to infection. Thus, vaccination against preventable diseases including influenza, pneumococcal pneumonia and hepatitis B is recommended for all RA patients who are subject to treatment with immunesupprssive drugs, unless there is a contraindication to the use of vaccination. However, low dose of glucocorticoids, conventional DMARDs and biological DMARDs including tumor necrosis factor inhibitors have been reported to substantially decrease vaccine response (4); MTX has been reported to be associated with a decreased response to seasonal influenza vaccination by up to 15%. To optimize a vaccine response, vaccination should be administrated before the treatment with immunesuppressive medications is initiated. However, most patients with RA are already on stable dose of DMARDs at the time of when vaccinations, especially vaccine against seasonal influenza that needs annual administration, are considered. Alternatively, temporarily discontinuation of DMARDs might restore normal immune response to and so improve the efficacy of vaccination. Although a short term discontinuation of DMARDs during perioperative period has not been associated with increased disease activity the longer discontinuation of DMARDs might lead to a significant aggravation of RA disease activity. To optimize the vaccine response, a short term discontinuation of DMARDs could be considered if this approach proves to be safe and effective.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
277
Methotrexate will be continued
all subjects will be vaccinated with a seasonal influenza vaccine
Seoul National University Hospital
Seoul, South Korea
Satisfactory Vaccination Responses Against 3 Antigens
Seroresponse is defined as serconversion or ≥4-fold increase in antibody titers
Time frame: 8 weeks
Satisfactory Vaccination Responses Against > 2/3 Antigens
Seroresponse is defined as serconversion or ≥4-fold increase in antibody titers
Time frame: 8 weeks
Satisfactory Vaccination Responses Against > 1/3 Antigens
Seroresponse is defined as serconversion or ≥4-fold increase in antibody titers
Time frame: 8 weeks
Proportion of Seroprotection Against H1N1
Seroprotection is defined as antibody titers of ≥40
Time frame: 8 weeks
Proportion of Seroprotection Against H3N2
Seroprotection is defined as antibody titers of ≥40
Time frame: 8 weeks
Proportion of Seroprotection Against B-Yamagata
Seroprotection is defined as antibody titers of ≥40
Time frame: 8 weeks
Change From Baseline in Antibody Titer Against H1N1
Fold change = post-vaccination titer/pre-vaccination titer
Time frame: Day of and 4 weeks after vaccination
Change From Baseline in Antibody Titer Against H3N2
Fold change = post-vaccination titer/pre-vaccination titer
Time frame: Day of and 4 weeks after vaccination
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Change From Baseline in Antibody Titer Against B-Yamagata
Fold change = post-vaccination titer/pre-vaccination titer
Time frame: Day of and 4 weeks after vaccination
DAS28 Flare Rate at Visit 4
DAS28 flare rate at visit 4 as compared to visit 1. RA flare was defined as an increase in DAS28 of \>1.2 (or \>0.6 if the baseline DAS28 was ≥3.2).
Time frame: 20 weeks from enrollment.