SARS-CoV-2 vaccine-associated subacute thyroiditis: insights from a systematic review

Subacute thyroiditis (SAT) is an inflammatory disease of the thyroid gland causing transient thyrotoxicosis, characterized by neck pain and symptoms of thyroid hormones excess. Despite disease presentation and clinical course are distinctive, etiology is not entirely determined.

Viral infections are considered the main trigger of SAT, especially for the frequent association with recent upper respiratory tract infections [1]. Main viruses associated with SAT are coxsackievirus A and B, echovirus, mumps, measles, influenza. Shortly after the onset of SARS-CoV-2 pandemic, many cases of SAT induced by this virus have been described [2‐6]. Direct evidence of viral presence in the thyroid gland has been indeed demonstrated for several viruses [7], including SARS-CoV-2 [8, 9]. Genetic susceptibility seems to also have a key role in pathogenesis, since SAT is often associated with some HLA haplotypes, in particular HLA-B*35 [10].

SAT has also been described after vaccination against H1N1 vaccine [11], seasonal influenza virus vaccine [12, 13], Human Papillomavirus vaccine [14, 15], and hepatitis B vaccination [16]; more recently, a rising number of cases of SAT following SARS-CoV-2 vaccination has also been reported, whether for the nucleic acid (mRNA), the viral vector (adenovirus), or the inactivated virus vaccine. So far, some possible pathophysiological explanations for post-vaccination SAT have been proposed, yet distinct mechanisms remain unclear. The first mechanism suggested is the autoimmune/inflammatory syndrome induced by adjuvants (ASIA) [17], an adjuvants-triggered immune reaction due to vaccine (or other drugs or products) excipients which could determine dysregulation of both innate and adaptive immune systems, possibly causing destructive thyroiditis or even new onset of autoimmune diseases such as Hashimoto’s thyroiditis [18]. SAT as part of ASIA syndrome has been formerly described also for hepatitis B, Human Papillomavirus, and influenza vaccinations [19]. A second hypothesis is linked to molecular mimicry: a recent in-vitro study [20] found that antibodies against SARS-CoV-2 proteins could cross-react with several tissue antigens, including thyroid antigens such as thyroid peroxidase (TPO). This immune crosstalk could then represent a common mechanism for immune-mediated complications both after SARS-CoV-2 infections [21] and for SARS-CoV-2 vaccination.

Aim of this study is to perform a systematic review of published cases of SAT secondary to SARS-CoV-2 vaccination, to highlight the characteristics of this condition, increasing the awareness of this possible side effect, and identify if new mRNA vaccines may trigger this side effect with a different pattern.

We performed a patient-level systematic review of case report and case series of SAT associated to SARS-CoV-2 vaccination reported in literature. Two additional unpublished cases evaluated in the Endocrine Unit of ASST dei Sette Laghi (Varese-Italy), and one case evaluated in the Endocrine and Diabetes Unit of ASST Papa Giovanni XXIII (Bergamo-Italy) are reported in Table 1 and Fig. 1 and were included in the database.

In the last year, after the beginning and worldwide massive diffusion of SARS-CoV-2 vaccination, there has been an increasing number of reports suggesting an association between thyroid dysfunctions and SARS-CoV-2 vaccines administration.

We hereby performed a systematic review reporting and analyzing data from 51 patients (48 published reports, 3 original cases evaluated by Authors) developing SAT after SARS-CoV-2 vaccination, to shed a light and add concrete evidence about this possible relationship.

Our first objective was to evaluate the demographical and clinical characteristics at presentation in this setting of patients. Considering this first aim, epidemiological and clinical features of patients affected by post-vaccination SAT seem similar to the classic form of virus-related SAT, as compared to a large cohort study [52], with a strong female prevalence, and a median age of onset at 40 years, with most prominent symptoms being neck pain, palpitations, fatigue, fever, weight loss. As for laboratory analyses, reported patients were usually thyrotoxic, and presented raised serum inflammation markers, particularly ESR, which correlated with thyrotoxicosis severity. Ultrasound, scintigraphy or FNA confirmed, when performed, typical features of classic SAT. Treatment strategies encompassed NSAIDs, beta-blockers and steroids, in line with American Thyroid Association guidelines [53]. We treated our three patients with prednisone, besides symptomatic therapy, due to the major severity of symptoms and/or the severity of thyrotoxicosis. This decision was pondered after raising ourselves the question if steroid therapies could impair vaccine-induced immune response. The three original patients hereby described developed thyroiditis after at least 2 weeks from vaccine shot, therefore we concluded that it was safe to employ steroids since the vaccine-induced immune response should have already been established. Further studies are needed to evaluate if an oral therapy with steroid, at what dosage and timing, may affect vaccine efficacy. As a precaution, until this subject is clarified, it could be suggested that if SAT onset occur in the first days after vaccine shot, it would be cautious to avoid or delay, if possible according to symptoms and thyrotoxicosis severity, steroid treatment.

Our second objective was to evaluate whether mRNA vaccines, only recently approved for emergency use authorization, have a peculiar pattern in determining this side effect as compared to viral vector or inactivated virus vaccines. Noticeably, mRNA-based vaccine uses lipid nanoparticles to facilitate mRNA transport into cells and contain several excipients and lipids, including polyethylene glycol (PEG), which might induce immune response in predisposed individuals [54] and has been linked with cases of anaphylactic reaction to mRNA vaccine [55]. Peculiarly, all patients with a previous diagnosis of autoimmune thyroid disease who developed SAT belonged to the mRNA vaccine group, possibly identifying a predisposition to develop SAT after mRNA-based SARS-CoV-2 vaccine secondary to ASIA syndrome, which is often associated to a personal or familial history of autoimmune diseases [19], but further studies and larger cohorts are needed to verify this suggestion.

In the face of several billion vaccine doses that have been administered globally so far [56], 51 recorded SAT cases following SARS-CoV-2 vaccination seem to define a very uncommon side effect. It is possible, however, that incidence of SAT could be underestimated, and that the paucity of cases described is not due to the rarity of this association but rather to a lack of awareness of this condition. SAT symptoms, despite peculiar, may indeed be confounded for post-vaccination general systemic side effects and could resolve spontaneously with symptomatic therapy, before a specialist may define diagnosis. At the same time, it is not entirely feasible to rule out other possible SAT etiologies (e.g., viral infections), however the reported cases all had a strong temporal association with vaccination schedule and cases did not clear peaked in the summer season, as expected for viral SAT (data not shown) [1]; moreover, some authors performed other tests to rule out other etiologies. Pujol et al [42], in an exemplary way, first ruled out SARS-CoV-2 associated SAT by detecting negative IgG anti-N, which are specific for natural (and not vaccine-driven) immunity, then performed molecular search of the principal pathogens associated with SAT in the FNA sample, which resulted negative.

We believe that SARS-CoV-2 vaccine-associated SAT deserves to be acknowledged in order to (I) avoid inappropriate treatment: physicians should treat symptomatic patients with NSAIDs, beta-blockers in case of palpitations, and/or steroid in case of unresponsiveness or if symptoms are severe; in the latter case it could be suggested to introduce steroids after two weeks post vaccination, if possible; (II) monitor thyroid morphology with ultrasound, which is an inexpensive and harmless diagnostic tool that could confirm diagnostic suspicion; (III) identify the hypothyroidism phase, which usually follows the destructive thyrotoxic phase: since it is usually a self-limiting condition, it should be monitored and treated only in case of severe symptoms or severe hypothyroidism; (IV) schedule a middle/long term follow-up for thyroid function since in about 5–15% of patients, hypothyroidism can be permanent [57, 58], and a life-long thyroid replacement therapy be required; (V) notify similar cases as possible adverse events of vaccination for pharmacovigilance purposes.

In conclusion, SARS-CoV-2 vaccine-associated SAT is a novel entity, which shares epidemiological and clinical characteristics with the classic post-viral SAT but could be triggered by peculiar mechanisms. It is possible that patients with a previous history of thyroid disease may be more prone to develop SAT after mRNA vaccines, but further studies and larger cohorts are needed to verify this suggestion. Most importantly, since SARS-CoV-2 vaccine-associated SAT it is usually of mild/moderate severity and could be treated in most cases with symptomatic therapy or a short course of steroids, it should not raise any concern regarding the need to be vaccinated, since the risks of COVID-19 undoubtedly outweigh the risks of the vaccination.

We believe that our work would increase awareness on this condition, to identify and properly treat patients that should be also monitored for possible long-term hypothyroidism.