Dear Editor,

Subacute thyroiditis (SAT) is a self-limiting inflammatory disorder of the thyroid and a relatively uncommon cause of thyrotoxicosis linked to a viral infection [1]. The acute onset of this disorder is often preceded by an upper respiratory tract infection caused by viruses such as influenza, adenovirus, Coxsackie, or, less frequently, Epstein-Barr and cytomegalovirus (CMV) [1]. Since the disorder is self-limiting, it is frequently misdiagnosed. The novel coronavirus, also known as severe acute respiratory syndrome coronavirus 2 (SARS-COV-2), is a RNA virus belonging to the coronaviridae family identified as the cause of severe acute respiratory syndrome, namely, coronavirus disease 2019 (COVID-19), declared as a pandemic by the World Health Organization in March 2020 [2]. We describe a case of SAT in a patient affected by COVID-19.

A 43-year-old woman with no personal history of thyroid disease developed fever, mild upper respiratory symptoms (i.e., rhinorrhea, painful swallowing, cough, and hoarseness), and conjunctivitis at the beginning of March 2020. Serum markers of acute inflammation were positive (erythrocyte sedimentation rate, 60 mm/h; C reactive protein [CRP], 8.8 mg/L (normal, 0–5 mg/L), while white cell count was within the normal range (6.6 × 109/L) with high lymphocyte percentage (40%). Baseline chemistry and hepatic and renal function were all within normal ranges. The chest X-ray was normal. Oropharyngeal swab tests of SARS-COV-2 RNA were positive. The patient was managed with no specific treatment and recovered rapidly. Two further swabs for SARS-COV-2 14 and 28 days after the first one were negative. However, a low-grade fever persisted, rising to 37.5° in the evening. In mid-April 2020, the patient suddenly developed pain and tenderness in the anterior cervical region, fatigue, tremors, and palpitations. The neck pain, which was severe and was aggravated by swallowing, was responsive to low-dose steroidal drugs (betamethasone 0.5 mg, twice a week) taken by the patient on her own initiative. Because of worsening of tremors, anxiety, and palpitations, thyroid function tests were requested by the general practitioner. Thyrotropin (TSH) was suppressed (0.006 mU/L; normal values 0.27–4.2); free triiodothyronine (FT3) was 7.03 pg/mL (n. v. 1.71–3.71); and free thyroxine (FT4) was 2.69 ng/dL (n. v. 0.7–1.48). Thyroglobulin (Tg) was markedly increased (188 pg/mL; n.v. 0–40), whereas anti-thyroglobulin antibodies (TgAb), anti-peroxidase antibodies (TPOAb), and anti-TSH receptor antibodies (TRAb) were undetectable. The patient was referred to the Endocrine Unit for further evaluation. Physical examination revealed mild tremors of the extremities, a diffuse and painful goiter, and enlarged and tender cervical and submandibular lymph nodes. The patient was found to have both IgM (40 IU = mL; normal, < 15 IU = mL) and IgG (0.73 IU = mL; normal, < 0.4 IU = mL) antibodies to SARS-COV-2, indicating that she had contracted the viral infection, which might have caused the thyroiditis. Neck ultrasonography showed a diffusely enlarged and hypoechogenic thyroid gland. Thyroid scintigraphy showed markedly reduced 99mTc-perthecnetate uptake in the gland (Fig. 1). All findings were consistent with SAT, and treatment with oral prednisone (25 mg/day as the starting dose, gradually tapered) was prescribed. Under the corticosteroid therapy, there was progressive resolution of symptoms and signs. Within 2 weeks, serum inflammatory indexes normalized and FT3 and FT4 decreased just above upper the normal range (FT4, 1.69 ng/dL; FT3, 4.03 pg/mL), while TSH was still low (0.22 mUI/L). Two weeks later, 4 weeks after starting steroid therapy, all thyroid functional tests normalized, as well as inflammatory indexes.

Fig. 1
figure 1

99mTc-pertechnetate scintigraphy obtained using a single-head gamma camera equipped with low-energy high-resolution parallel-hole collimator (LEHR-PAR). Panel A. Static image (magnification 1; matrix 256 × 256, acquisition frame 100 Kc) obtained in anterior view 10 min after radiotracer administration (111 MBq). No significant 99mTc-pertechnetate uptake in thyroid parenchyma was noted. Panel B. To better identify the thyroid bed, a jugular radioactive mark was used

The COVID-19 pandemic started in December 2019 and spread worldwide, with over a million of people being infected over the following 6 months [2]. SARS-COV-2 exhibits marked tissue tropism causing mainly interstitial pneumonia and severe acute respiratory syndrome, inducing an aberrant inflammatory response that also involves the cardiovascular, coagulative, gastrointestinal, and nervous systems [2]. The whole spectrum of complications and long-term sequelae related to SARs-COV-2 infection is as yet far from being fully understood and, in particular, thyroid gland involvement is not yet clearly defined. Data from the related SARS-COV-1 showed that the virus was responsible for follicular cell destruction and dysfunction and fibrosis following the acute phase, representing the histopathological hallmarks of destructive thyroiditis [2].

We report a case of SARS-COV-2 associated with an infection of the thyroid gland. SAT occurred quite some time after resolution of upper respiratory manifestations. This, as well as two other cases of destructive thyroiditis associated with SARS-COV-2 infection that were almost simultaneously reported, highlight that potential thyroid involvement should be taken into account by physicians working in COVID-19 units [3]. If more cases occur, this disorder of the thyroid gland should be included as a possible complication triggered by SARS-COV-2 during the COVID-19 pandemic. Clinical suspicion of SAT should be kept in mind when assessing cases of COVID-19 in the presence of neck pain and symptoms of hyperthyroidism. Many patients infected with COVID-19 are not able to recall any known exposure or are asymptomatic. Confirming COVID-19 diagnosis may also significantly decrease the risk of disease transmission.