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Relapse of Graves' disease following SARS‑CoV‑2 infection: A case report and brief literature review

  • Authors:
    • Saeed Rashaad Mohammed
    • Mallika Tripathi
    • Narine Mack
    • Surujpal Teelucksingh
  • View Affiliations

  • Published online on: December 21, 2021     https://doi.org/10.3892/mi.2021.25
  • Article Number: 25
  • Copyright: © Mohammed et al. This is an open access article distributed under the terms of Creative Commons Attribution License.

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Abstract

The interaction between severe acute respiratory syndrome coronavirus 2 (SARS‑CoV‑2) and autoimmune thyroid disease is an emerging phenomenon. The present study describes the case of a 28‑year‑old female who experienced a relapse of Graves' disease following SARS‑CoV‑2 infection. She was biochemically euthyroid for 2 years prior to COVID‑19 infection. However, she began experiencing palpitations, increased sweating and tremors of the hands 9 days after being diagnosed with COVID‑19‑related pneumonia. In addition to presenting this case, a comparison is made of this case to similar reports and the possible mechanisms underlying the association between SARS‑CoV‑2 and Graves' disease are discussed. One is a direct result of viral uptake by thyroid cells, while another is a result of the hyperinflammatory ʻcytokine storm’ and its effects on the hypothalamic‑pituitary‑thyroid axis and T‑cell immunity.

Introduction

The interaction between severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and autoimmune disease is an emerging phenomenon, with numerous reports of patients with COVID-19 developing autoantibodies and >10 distinct autoimmune diseases (1,2). Thyroid disease is a common manifestation, with cases of Graves' disease (3), Hashimoto's disease (3) and postpartum thyroiditis (4) subsequent to SARS-CoV-2 infection being reported.

The present study reports a case of a patient who experienced a relapse of Graves' disease following SARS-CoV-2 infection. In addition, this case is compared to similar reports and the possible mechanisms underlying the association between SARS-CoV-2 and Graves' disease are also discussed.

Case report

A 28-year-old female from mainland China, currently residing in Trinidad, presented to the San Fernando General Hospital (San Fernando, Trinidad and Tobago) in June, 2021 with a 19-day history of palpitations, increased sweating and tremors of her hands. She had been diagnosed with COVID-19-related pneumonia 28 days earlier. Of note, 5 years prior, she had been treated for Graves' disease medically; however, she had been biochemically euthyroid and off anti-thyroid medications since 2019. Up to April, 2021, she was euthyroid: Free thyroxine (FT4), 13.2 pg/ml (reference range, 8.9-17.2 pg/ml) and thyroid-stimulating hormone (TSH), 1.1 µIU/ml (reference range, 0.3-4.5 µIU/ml) and a thyroid ultrasound, also performed in April, 2021, had displayed a mildly enlarged thyroid with no nodules.

In May, 2021, she presented to her local health centre with a non-productive cough, fatigue and weakness. A nasopharyngeal PCR swab test for SARS-CoV-2 yielded positive results and she was diagnosed with COVID-19-related pneumonia. She experienced palpitations, although she attributed these to the intense fear from the diagnosis of COVID-19, as she was afraid she would not survive. Her clinical status was followed via telemedicine; her respiratory symptoms were treated symptomatically and resolved within 5 days. However, her anxiety and palpitations persisted. After 4 days, she began experiencing tremors and increased sweating. She then presented to one of the authors (NM) at San Fernando General Hospital, 28 days after her initial diagnosis of COVID-19. A clinical examination revealed an anxious female, with fine tremor of her hands, tachycardia (pulse, 120 bpm) and a non-tender diffuse goitre with a bruit. There were no dermatological or ocular features of Graves' disease. Thyroid function tests were consistent with hyperthyroidism: Free triiodothyronine (FT3), 18.3 pg/ml (reference range, 2.0-4.2 pg/ml), FT4, 46.2 pg/ml (reference range, 8.9-17.2 pg/ml) and TSH, 0.0 µIU/ml (reference range, 0.3-4.5 µIU/ml) (Table I). TSH receptor antibody (TR-Ab) levels were elevated (3.2 mIU/ml; positive, >2.0 IU/l), as were thyroid peroxidase antibody levels (42.5 IU/ml; reference range, 0.0-35.0 IU/ml). A thyroid ultrasound revealed a mildly enlarged goitre with increased vascularity (Fig. 1 and Table II). Blood count, erythrocyte sedimentation rate (ESR) and C-reactive protein (CRP) levels, and liver and renal functions were within normal limits. She was diagnosed with a relapse of Graves' disease and began treatment with carbimazole at 15 mg p.o., b.i.d. and atenolol at 50 mg once daily. The tremors, palpitations and increased sweating ceased 1 week later, whilst her anxiety persisted for several weeks before resolving. She has not reported any complications of COVID-19 and was well at her last follow-up visit.

Table I

Thyroid function test results.

Table I

Thyroid function test results.

TestResultReference rageFlag
Thyroid stimulating hormone0.00.3-4.5 µIU/mlLow
Free T446.28.9-17.2 pg/mlHigh
Free T318.32.0-4.2 pg/mlHigh

Table II

Thyroid ultrasound report.

Table II

Thyroid ultrasound report.

Thyroid ultrasound characteristicDescription
FindingsThe thyroid gland is mildly enlarged and heterogeneous with diffusely increased vascularity. The thyroid gland was larger than usual
 No retrosternal extension or tracheal deviation
 The right lobe measures 2.4x1.9x6.8 cm
 The left lobe measures 2.4x2.4x6.8 cm
 The isthmus measures 0.4 cm AP
 There are bilateral, small well-circumscribed, benign-appearing, hypoechoic thyroid nodules measuring up to 0.8 cm with no dominant nodule on either side
 Small reactive anterior cervical lymph nodes were noted, measuring up to 0.3 cm
ImpressionModerately-enlarged thyroid (larger than usual), with multiple well-defined, hypoechoic nodules measuring up to 0.8 cm and diffusely increased vascularity. These appearances are suggestive of Graves' disease

Discussion

There have been isolated reports of either relapse of, or newly diagnosed Graves' disease following the diagnosis of SARS-CoV-2. The present study also conducted a literature search evaluating these reports by searching PubMed and Google Scholar for the following terms/keywords: ‘Graves' disease’, ‘SARS-CoV-2’ and ‘COVID-19’. The characteristics of the patients reported in the literature are presented in Table III.

Table III

Characteristics of the patients with possible SARS-CoV-2-induced new onset, or relapse of, Graves' disease identified in the literature.

Table III

Characteristics of the patients with possible SARS-CoV-2-induced new onset, or relapse of, Graves' disease identified in the literature.

Clinical characteristicPatient 1, Mateu-Salat et al (5)Patient 2, Mateu-Salat et al (5)Patient 3, Jiménez-Blanco et al (6)Patient 4, Jiménez-Blanco et al (6)Patient 5, Harris and Mushref (7)Patient 6, Lanzolla et al (8)Patient 7, Bayar et al (9)Patient 8, Khoury et al (10)Patient 9, Allam et al (11)Patient 10, Qureshi and Bansal (12)Patient 11 Montebello (13)Patient 12, Feghali et al (3)
Age, years605345612133384533132233
SexFemaleFemaleFemaleFemaleFemaleFemaleFemaleMaleFemaleMaleFemaleFemale
Past thyroid historyGraves' disease, in remission for 35 yearsNone12-Year history of Graves' disease. The patient relapsed on two occasions (2008 and 2015) and had one episode of Graves' ophthalmopathy in 2018. Euthyroid prior to COVID-19 diagnosis17-Year history of Graves' disease relapsed once in 2014 Euthyroid since 2016NoneNoneNoneNone9-Month history of Graves' disease Euthyroid since January 2020NoneGraves' disease since 2018 Biochemically euthyroid since September 2019None
Presenting symptomsPalpitations, nervousness, fatigueAsthenia, tremor, palpitationsPalpitations, nervousnessPalpitationsTachycardia, palpitations, anxiety and shortness of breathTachycardia, weight loss, heat intolerance, nervousnessAsthenia, tremor, palpitationsPalpitations, light-headedness, dizzinessBilateral ‘puffiness’ and proptosis of the eyes Weight loss, tremorFatigue, dizziness, weight loss, difficulty sleeping, heat intolerance and an episode of presyncopePalpitations, presyncope, hot flushes with associated chest tightnessPalpitations, shortness of breath, fatigue. Thyroid ultrasound revealed mild thyromegaly with heterogenous and diffusely hypervascular appearance
Observations on physical examination and investigationsNo goitreNon-tender goitreHypervascularisation of thyroid on ultrasoundHypervascularisation of thyroid on ultrasoundMild diffuse thyromegaly without tenderness, bilateral fine hand tremors and hyperreflexiaGraves; ophthalmopathy,Non-tender goitreTachycardia, bilateral hand tremor. Atrial fibrillation on electrocardiogramGoitre with relative diffuse reduction in vascularity and heterogenous parenchymaTachycardia, thyromegaly, sinus tachycardiaBilateral hand tremor and increased ankle reflexes Pseudonodules and fibrous septations throughout the thyroid noted on ultrasound 
Time to presentation with symptoms following the diagnosis of COVID-1935 Days after positive IgG, 39 days after lung ultrasound compatible with COVID-19 pneumonia34 Days after confirmation by positive IgG, but 65 days after chest X-ray compatible with COVID-19 pneumoniaPresented with symptoms of COVID-19 and hyperthyroidism concurrently~1 MonthUnknown, three days after resolution of symptoms of COVID-19~2 MonthsWithin 2 months17 DaysPresented with symptoms of COVID-19 and hyperthyroidism concurrently8 Weeks after diagnosis of COVID-19~8 Weeks7 Weeks
Treatment administeredThiamazole and propranololThiamazole and propranololMethimazole 40 mg daily - patient improved in three months Methimazole 5 mg daily thereafterMethimazole 10 mg daily, patient was euthyroid three months later and continues with 5 mg dailySelective beta blocker twice daily, methimazole 30 mg daily for 3 months Since then, thionamide titration with a planned trial discontinuation of the beta blockerMethimazoleCorticosteroid and propranolol - the patient has leukopenia, thus anti-thyroid drugs are contraindicatedPropranolol and methimazolePrednisolone (with taper) and carbimazoleMethimazole 10 mg daily for two months, after which propranolol 10 mg twice daily was addedCarbimazole 40 mg daily and propranolol 40 mg three times dailyPropranolol and methimazole 10 mg
Time to resolution of symptoms following the initiation of treatmentUnknown, improvement of symptoms reportedUnknown, improvement of symptoms reportedThree months after treatment, her condition has improvedEuthyroid after three monthsEuthyroid after three monthsUnknown, improvement of symptoms noted after treatmentUnknown, improvement of symptoms noted after treatmentBiochemically euthyroid 13 days laterBiochemically euthyroid 3 months laterBiochemically euthyroid 4 months later, but mixed thyroid and long COVID-19 symptoms persistUnknown, biochemical and physical improvement noted after 1 month of treatment but worsened upon reduction of medication dosage. Currently well and on carbimazole treatmentSymptomatic relief within 2 weeks

The majority of the patients identified in the literature presented with symptoms of hyperthyroidism within 2 months of the diagnosis of COVID-19. In most cases, it is uncertain how much time had elapsed between the resolution of the COVID-19-related symptoms and the onset of hyperthyroid symptoms. In the case presented herein, the patient's symptoms began 9 days following the diagnosis of COVID-19. From the cases identified in the literature, five had a history of thyroid disorders (Graves' disease), although they were in remission, i.e., biochemically euthyroid, similar to the patient in the present study. Most cases reportedly experienced an improvement in symptoms soon after the initiation of treatment. In the present case, the tremors, palpitations and perspiration resolved within 1 week of treatment. Graves' disease is the most common cause of hyperthyroidism, and it is thus difficult to state with certainty that SARS-CoV-2 was the cause of these cases, as the virus was not directly evidenced in the thyroid tissue; the temporal relation suggests a role, however.

It is well-established that viral infections can contribute to the pathogenesis of autoimmune thyroid disorders (14). Several plausible mechanisms explaining the interplay between SARS-CoV-2 infection and Graves' disease have been proposed. SARS-CoV-2 enters host cells via the binding of its spike protein to angiotensin-converting enzyme-2 (ACE2) receptors and the subsequent recruitment of transmembrane protease serine 2 (TMPRSS2) to facilitate cytoplasmic entry. The thyroid gland expresses both ACE2 and TMPRSS2 in high quantities, and this may allow SARS-CoV-2 to directly induce thyroid dysfunction (15).

The levels of several cytokines, including IL-6, IL-1β, TNF-α and IFN-γ are elevated in the hyperinflammatory state induced by SARS-CoV-2. Croce et al (16) noted that these cytokines exert a multitude of effects on the hypothalamic-pituitary-thyroid axis, on circulating thyroid hormone binding proteins and the peripheral metabolism of thyroid hormones. The pathogenesis of Graves' disease is convoluted and the understanding of this disease is rapidly increasing (17). The ‘cytokine storm’ associated with SARS-CoV-2 may promote the hyperactivity of the Th1/Th17 immune response (18). Th17 lymphocytes synthesize several pro-inflammatory cytokines which may play a role in direct tissue damage and contribute to autoimmune disease (19). It has been postulated that viral-induced Graves' disease may be mediated by Th17(20). Elevated levels of IL-6 have been reported in patients with Graves' disease (21) and a mechanistic link has been proposed (17).

Psychological stress may contribute to the aetiology of Graves' disease and may thus play a role in relapse (14), further confounding the relationship between SARS-CoV-2 infection and thyroid disease.

Multiple plausible mechanisms may account for the influence of SARS-CoV-2 on thyroid disease. One is a direct result of viral uptake by thyroid cells (15), while another is a result of the hyperinflammatory ‘cytokine storm’ and its effects on the hypothalamic-pituitary-thyroid axis and T-cell immunity (16,18,19,20).

In conclusion, there is increasing evidence to suggest that SARS-CoV-2 infection may be a precursor for autoimmune disease. The present study reports the case of a 28-year-old female of Chinese descent with a relapse of Graves' disease 28 days following the diagnosis of COVID-19. Her symptoms began 9 days after a positive nasopharyngeal PCR swab for SARS-CoV-2. Anecdotal data may implicate SARS-CoV-2 as a trigger for relapse of, or new onset Graves' disease.

It is thus recommended that clinicians follow-up patients with COVID-19 with a previous history of autoimmune thyroid disease, as it may trigger a relapse, as in this case. Further research is required to elucidate the exact mechanism(s) underlying the association between SARS-CoV-2 and autoimmune conditions.

Acknowledgements

Not applicable.

Funding

Funding: No funding was received.

Availability of data and materials

The datasets used and/or analysed during the current study are available from the corresponding author upon reasonable request.

Authors' contributions

NM and ST conceptualized the study. All authors (SRM, MT, NM and ST) were involved in the design of the study, in the writing, review and editing of the manuscript, as well as in project administration. NM and ST supervised the study. SRM and MT were involved in the writing of the original draft. SRM, MT and NM were involved in obtaining medical images. NM, SRM, MT and ST were involved in patient care/management. All authors (NM, SRM, MT and ST) confirm the authenticity of all the raw data. All authors have read and approved the final manuscript.

Ethics approval and consent to participate

Due to the present study being a retrospective case report, ethical approval was not required. Informed consent was obtained from the patient for all procedures conducted as part of clinical care/management.

Patient consent for publication

The patient provided consent for the publication of this report.

Competing interests

All authors declare that they have no competing interests.

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Spandidos Publications style
Mohammed SR, Tripathi M, Mack N and Teelucksingh S: Relapse of Graves' disease following SARS‑CoV‑2 infection: A case report and brief literature review. Med Int 1: 25, 2021
APA
Mohammed, S.R., Tripathi, M., Mack, N., & Teelucksingh, S. (2021). Relapse of Graves' disease following SARS‑CoV‑2 infection: A case report and brief literature review. Medicine International, 1, 25. https://doi.org/10.3892/mi.2021.25
MLA
Mohammed, S. R., Tripathi, M., Mack, N., Teelucksingh, S."Relapse of Graves' disease following SARS‑CoV‑2 infection: A case report and brief literature review". Medicine International 1.5 (2021): 25.
Chicago
Mohammed, S. R., Tripathi, M., Mack, N., Teelucksingh, S."Relapse of Graves' disease following SARS‑CoV‑2 infection: A case report and brief literature review". Medicine International 1, no. 5 (2021): 25. https://doi.org/10.3892/mi.2021.25