A flare of Still's disease following COVID-19 vaccination in a 34-year-old patient.

Vaccination is a cornerstone for reducing the risk of COVID-19 infection during a pandemic. Although the currently used COVID-19 vaccine is considered safe, some concerns persist regarding the likelihood of flares of rheumatic diseases. Still's disease is a rare auto-inflammatory disorder of unknown etiology, and the data on the flare of Still's disease following COVID-19 vaccination are limited. Therefore, we hereby present the case of a 34-year-old female patient with Still's disease who experienced a flare after a ChAdOx1 nCoV-19 vaccination. The patient visited the emergency department complaining of fever, arthralgia, myalgia, pleuritic chest pain and macular salmon-pink rash on her back for the past 2 days. She had maintained low Still's disease activity with etanercept and low-dose glucocorticoid for 14 years. She received the ChAdOx1 nCoV-19 vaccine 7 days before the flare. Laboratory investigations revealed leucocytosis and elevated serum levels of erythrocyte sedimentation rate, C-reactive protein, and ferritin. Computed tomography showed no specific findings. She received methylprednisolone pulse therapy, etanercept, and methotrexate for treating the Still's disease flare. However, her symptoms were not fully controlled, and she developed pericarditis, pleuritis, fever and macular rashes expanding to her extremities. After excluding infectious conditions by blood culture and pleural fluid analysis, we administered tocilizumab with methotrexate and prednisolone. Her symptoms and laboratory findings improved significantly, and she was discharged without symptoms 7 days later. Although rare, this case of a patient with Still's disease undergoing a flare following vaccination suggests that close observation of disease activity is warranted following COVID-19 vaccination.

Introduction

In the face of the COVID-19 pandemic, newly developed vaccines are effectively preventing COVID-19 infections worldwide. Patients with rheumatic diseases are more susceptible to infection and are likely to experience more severe infections due to underlying autoimmune conditions and due to having received immunosuppressant therapy. Furthermore, COVID-19 infection itself may also precipitate flares of rheumatic diseases. Therefore, the European Alliance of Associations for Rheumatology (EULAR) recommended COVID-19 vaccination for patients with rheumatic diseases [1]. On the other hand, several trials have reported on the safety of vaccines, and the association between disease flare and vaccination has also been an important issue. Recent preliminary data on post-market safety profile indicated that vaccines against COVID-19 do not necessarily exacerbate disease activity in rheumatic diseases [2]. Although the rapid development of vaccines has raised concerns regarding disease flare, the data reported so far are reassuring as far as the possibility of vaccine-related flares is concerned.

Nevertheless, there have been few reports of flares in patients with rheumatic diseases following vaccination for other diseases such as influenza and hepatitis B [3, 4]. Regarding COVID-19, disease flares following vaccination have been reported in the context of preexisting rheumatoid arthritis, IgA nephropathy, leukocytoclastic vasculitis, erythema nodosum, and psoriasis [5-9].

Still’s disease is a rare, systemic, auto-inflammatory disorder characterized by spiking fever, skin rash, and arthritis. This disorder is classified based on onset, whether it occurs during the juvenile or adult stages. The former, juvenile-onset Still’s disease, is also known as a systemic form of juvenile idiopathic arthritis (JIA). Similar to the pathogenesis of COVID-19 infection, inflammatory cytokines such as IL-1 play an important role in Still’s disease. Although it may be challenging to clarify the causal relationship between vaccination and disease flares, this case of Still’s disease exacerbation following COVID-19 vaccination may provide information for appropriate recognition and treatment of Still’s disease flares. However, there are still limited prior data on flares of Still's disease following COVID-19 vaccination. Accordingly, we report this case of a 34-year-old patient with Still's disease who experienced a flare following ChAdOx1 nCoV-19 vaccination.

Case report

A 34-year-old woman visited our emergency department with a febrile sensation for 2 days. She also complained of arthralgia, myalgia, sore throat, pleuritic chest pain, and a macular salmon-pink rash on her back. The patient was diagnosed with Still's disease at the age of 12 years, and was doing well without a flare for 14 years on etanercept 50 mg weekly and low-dose prednisolone. She received the first dose of ChAdOx1 nCoV-19 vaccine 9 days ago.

On physical examination, we noticed a transient macular salmon-pink rash on her back during febrile periods. Her right elbow was swollen and warm. She had no pharyngeal injection, and her lung sounds were clear. Her vital signs were as follows: blood pressure, 156/105 mmHg; heart rate, 115 beats/min; body temperature, 37.8 °C; and respiratory rate, 20 breaths/min. Initial laboratory tests indicated leucocytosis (WBC count 25,890/uL), anemia (Hemoglobin 11.7 g/dL), elevated erythrocyte sedimentation rate (ESR) 57 mm/hr and serum levels of C-reactive protein (CRP) 13.96 mg/dL. Anti-nuclear antibody was negative. Cervical, thoracic, abdominal, and pelvic computed tomography (CT) revealed no specific abnormalities. Blood cultures and real-time polymerase chain reaction (PCR) test results for COVID-19 were all negative. We started her treatment with prednisolone 20 mg/day and empirical antibiotics (Fig. 1). However, her pleuritic chest pain aggravated, and transthoracic echocardiography showed minimal pericardial effusion with normal ejection fraction. Electrocardiogram showed T wave inversion on leads V3 and V4. Her serum levels of ferritin were 1,367 mg/dL on the 5th day of hospitalization (HD).

Fig. 1

Timeline of clinical and laboratory findings and treatment during the course of hospitalization in a patient with Still’s disease, who underwent exacerbated disease activity following COVID-19 vaccination. PD prednisolone, ETN etanercept, MTX methotrexate, TCZ tocilizumab, ESR erythrocyte sedimentation rate, CRP C-reactive protein

To control the flare of Still’s disease, we increased the dose of prednisolone to 50 mg/day on HD 7. High-dose glucocorticoid therapy was temporarily effective in improving fever, chest pain, arthralgia, and rash for 3–4 days. However, her symptoms including pleuritic chest pain, fever, and macular rash were exacerbated again with elevated inflammatory markers on HD 13 (WBC 27,050/uL, ESR 111 mm/h, CRP 20.53 mg/dL, ferritin 8,522 mg/dL). She was treated with methylprednisolone pulse therapy (125 mg/day for 3 days) followed by etanercept (50 mg subcutaneous injection), methotrexate (10 mg/week), and prednisolone (75 mg/day). Antibiotic treatment was discontinued. This treatment approach led to transient improvement in her symptoms and laboratory findings. However, right-sided pleuritic chest pain and fever recurred with the macular rash spreading to her extremities on HD 25 (Fig. 2). Chest CT showed the presence of bilateral pleural effusion. Pleural fluid analysis were characteristic of an exudate with predominance of neutrophils as follows: pH, 7.546; WBC, 31,000/uL (neutrophil 80%, lymphocyte 20%, and histiocyte 10%); total protein, 3.9 g/dL; lactate dehydrogenase, 1,662 IU/L; adenosine deaminase, 52.3 IU/L (normal < 83.4 IU/L). Pleural fluid stain, cultures, cytology, and PCR test for tuberculosis were negative. Empirical antibiotics were re-administered, and the dose of prednisolone was reduced to 40 mg/day; however, the symptoms had failed to improve. As a treatment of the refractory Still’s disease, 8 mg/kg of tocilizumab was administrated to HD 32 along with methotrexate and prednisolone, and symptoms and laboratory findings were significantly improved. We tapered the dose of prednisolone to 35 mg/day and discharged the patient 7 days later. The improvement was maintained without symptoms for two months with tocilizumab (8 mg/kg every two weeks), methotrexate (10 mg/week) and median dose of prednisolone (20 mg/day). Inflammatory markers including ESR, CRP and ferritin also remained normal.

Fig. 2

Recurrent macular rash on the legs persisting despite glucocorticoid treatment in a patient with Still’s disease, who underwent a disease flare following COVID-19 vaccination

Search strategy

According to the published guideline on narrative reviews [10], the literature search was conducted through MEDLINE/PubMed and Scopus databases up to August 2021. The search was conducted using the following queries: ‘JIA’ AND ‘COVID-19’, ‘JIA’ AND ‘vaccination’, ‘COVID-19’ AND ‘vaccination’ AND ‘rheumatic disease’. We retrieved relevant results, including research articles, case reports, letters, correspondences, and reviews. We found 52 results for ‘JIA’ and ‘COVID-19’, 153 results for ‘JIA’ and ‘vaccination’, and 103 results for ‘COVID-19’, ‘vaccination’, and ‘rheumatic disease’. Non-English articles were excluded from the search.

Discussion

Infection is a potential risk factor for flares in Still's disease, and vaccination can be a powerful strategy to mitigate the risk of COVID-19 infection. However, there have been some cases of disease flare following vaccination. Herein, we report an interesting case of a Still's disease flare following COVID-19 vaccination in an adult patient who had stable disease activity with etanercept therapy. Tocilizumab was an effective therapeutic agent in this case of Still’s disease which underwent flaring following COVID-19 vaccination.

In our case, the patient was diagnosed with juvenile-onset Still’s disease at the age of 12 years. Despite low disease activity for a long time, the flare occurred following COVID-19 vaccination. In terms of JIA, there have been previous studies investigating the association between flares and vaccination. Australian research on routine childhood vaccination in rheumatic disease demonstrated that the risk of arthritis flares after vaccination was lower than the baseline risk [11]. A randomized trial of the safety of measles-mumps-rubella vaccination in JIA showed that it did not affect disease activity in JIA patients [12]. Likewise, in a study of JIA patients on biologic therapy, no flare was reported after influenza vaccination [13]. In contrast, Shimizu et al. described the case of a 3-year-old girl who experienced relapses of Still’s disease after receiving influenza vaccination [14]. A report by Korematsu et al. also presented a case of Still’s disease flare after rubella vaccination [15]. A prospective longitudinal study reported that influenza vaccination triggered flares in 11 of 31 patients with stable JIA [16]. These inconsistent results on the impact of vaccination on JIA flares raises questions whether COVID-19 vaccination is associated with flares of Still’s disease.

Regarding COVID-19, research on the link between vaccination and disease flare is still ongoing. In a study on the efficacy and safety of the COVID-19 mRNA vaccine in chronic inflammatory disease, no patients showed a disease flare [17]. A cross-sectional study indicated that only four out of 724 patients receiving COVID-19 vaccination (the ChAdOx1 or the BBV152 vaccines) experienced the flares of arthritis and improved within 5 days [18]. In contrast, Watad et al. described 27 cases of immune-mediated disease flare or new-onset disease after COVID-19 vaccination, including systemic lupus erythematosus and Behcet’s disease [19]. In our case, the patient experienced the flare one week following initial vaccination. Compared to other JIA subtypes, Still’s disease is known to become less inflammatory at long-term follow-up as a ‘burn-out’ concept [20]. The occurrence of flares following vaccination in a patient with long-term stable disease activity suggests the possibility that COVID-19 vaccination affects the pathogenic mechanism of Still’s disease. Although the association between vaccination and disease flare is not clear, this case reveals that monitoring disease activity following COVID-19 vaccination is helpful among patients with Still’s disease.

The mechanism behind the occurrence of flares of Still’s disease following COVID-19 vaccination is not yet known. Certain components of vaccines like pathogenic antigens may induce immune activation in autoimmunity [21]. In addition, COVID-19 infection is related to the activation of the innate immunity and the production of pro-inflammatory cytokines such as IL-1, IL-6, and TNF-α [22]. These inflammatory responses are similar, in terms of mechanism, to Still’s disease [23]. COVID-19 vaccination may elicit production of the SARS-CoV-2 spike protein similar to those in COVID-19, and this process may also sensitize the immune system towards exacerbation of Still’s disease [24, 25]. However, further research is required to delve into the association between the mechanisms of interplay between COVID-19 infection, vaccination, and Still’s disease.

In this case, the flare was not controlled despite advanced therapy of methylprednisolone pulse, etanercept, and methotrexate. However, the patient improved definitely after tocilizumab therapy, which is used for treatment of Still’s disease [26]. A previous report showed a successful case of tocilizumab therapy in a patient with Still’s disease who experienced a relapse after influenza vaccination [14]. Similarly, no flares were reported following influenza vaccination while administering tocilizumab in Still’s disease [27]. Our case suggests that tocilizumab may be a viable therapeutic option to control refractory cases of flaring in Still’s disease following COVID-19 vaccination, even in patients who were otherwise well-controlled on TNF inhibitors.

Several limitations should be considered when interpreting this case study. First, it is possible that the timing of vaccination merely coincided with Still’s disease’s flare. The causal relationship between COVID-19 vaccination and flare cannot be clarified in this case. Therefore, vaccination should not be deferred out of concern for possible flaring of disease activity. Furthermore, Still’s disease is diagnosed based on clinical presentation and upon the exclusion of other conditions. Other causes cannot be completely excluded in this case. In particular, vaccines can sometimes cause adverse events such as drug eruptions, fever, and myalgia. Because skin biopsy was not performed, the etiology of the skin lesions cannot be confirmed as necessarily arising from Still’s disease itself. However, her skin rash was typical of Still’s disease and usually appeared concurrently with fever. In addition, the symptoms that were not controlled by glucocorticoid administration improved with tocilizumab therapy, a known treatment for Still’s disease. These details in the case may support the diagnosis of Still’s disease above and over other conditions.

In conclusion, we reported a case of the flare after COVID-19 vaccination in a patient with Still’s disease who maintained low disease activity with therapy of etanercept and low-dose glucocorticoid. Clinical symptoms and laboratory findings improved after tocilizumab therapy. It is clear that the benefit of vaccination outweighs the risk, considering the COVID-19 pandemic. However, this case suggests that patients with Still’s disease should be carefully monitored for related symptoms following COVID-19 vaccination. Further studies are required to investigate the association between COVID-19 vaccination and flares of Still’s disease.