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Meige Syndrome Following COVID Infection

Published online by Cambridge University Press:  13 October 2023

Eugénie Girouard
Affiliation:
Department of Neurosciences, Université de Montréal, Montreal, QC, Canada Department of Specialized Medicine, Neurology Service, Centre Hospitalier de l’Université de Montreal, Montreal, QC, Canada
Ariel Levy*
Affiliation:
Department of Neurosciences, Université de Montréal, Montreal, QC, Canada Department of Specialized Medicine, Neurology Service, Hôpital Maisonneuve-Rosemont, Montreal, QC, Canada
*
Corresponding author: A. Levy; Email: [email protected]
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Abstract

Type
Letter to the Editor: New Observation
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of Canadian Neurological Sciences Federation

A 61-year-old woman known for prediabetes and dyslipidemia was referred by her optometrist to our neurology clinic for blepharospasm. Her past neurological history was unremarkable, and she was not previously exposed to dopamine-depleting agents. She had received three prior doses of COVID vaccination. Her symptoms began 7 days after the first episode of an asymptomatic COVID infection confirmed by molecular testing. This evolved over a period of 2 to 3 months into functional blindness from blepharospasm and speech difficulties due to oral and facial dystonia (video 1, segment 1). There initially was no implication of cervical or axial musculature, but 5 months after the initial presentation, the patient also developed mandibular, cervical, and vocal cord dystonia (video 1, segment 2). This constellation of symptoms led to social isolation, depressive symptoms, and professional disability. A thorough workup was performed, including complete blood count and differential, serum protein electrophoresis, electrolytes, renal function, hepatic function, vitamin B12, C-reactive protein, TSH, anti-TPO, anti-B2-glycoprotein, IgA, anti-gliadin, anti-Sm, anti-RNP, anti-SSA, anti-SSB, and anti-scl 70, and Tropheryma whipplei polymerase chain reaction, which were negative. A normal magnetic resonance imaging excluded structural or vascular lesions. Botulinum therapy injections were initiated with partial success after four cycles. As an adjunctive treatment, a trial of clonazepam produced suboptimal benefit, which was followed by another trial of zolpidem that was later stopped by the patient for lack of benefit. Tetrabenazine was contraindicated due to severe depressive symptoms, and Trihexyphenidyl was refused by the patient due to its side-effect profile.

Meige syndrome is a rare movement disorder characterized by blepharospasm and oromandibular dystonia. Reference Jahngir, Ameer and Patel1,Reference Ma, Qu, Ye, Shu and Blepharospasm2 This focal dystonia typically presents in middle-aged women and is usually idiopathic. Secondary forms exist following dopamine-blocker use or with structural lesions such as strokes, tumors, or demyelination of various brain regions such as the brain stem, Reference Jahngir, Ameer and Patel1,Reference Khooshnoodi, Factor and Jinnah3 and the thalamus. Reference Jahngir, Ameer and Patel1,Reference Khooshnoodi, Factor and Jinnah3 Some authors report anomalies involving the basal ganglia, the cerebellum, and the midbrain. Reference Khooshnoodi, Factor and Jinnah3 This syndrome has also been described as a component of other movement disorders such as Parkinson’s disease, Reference Jahngir, Ameer and Patel1,Reference Ma, Qu, Ye, Shu and Blepharospasm2 Huntington’s disease, Reference Jahngir, Ameer and Patel1,Reference Ma, Qu, Ye, Shu and Blepharospasm2 olivopontocerebellar atrophy, Reference Jahngir, Ameer and Patel1 or Lewy body disease. Reference Jahngir, Ameer and Patel1 Botulinum toxin injections are the mainstay of treatment, but other reported treatments have included benzodiazepines, anticholinergics, dopamine antagonists, GABA receptor agonists, and zolpidem. Recent studies have also shown the benefit of deep brain stimulation in refractory cases. Reference Jahngir, Ameer and Patel1,Reference Ma, Qu, Ye, Shu and Blepharospasm2 The pathophysiology of Meige has not yet been elucidated, but it is thought to be caused by anomalies in the dopaminergic and cholinergic pathways modulating the striatum. Reference Jahngir, Ameer and Patel1,Reference Ma, Qu, Ye, Shu and Blepharospasm2 Recent studies have also supported the hypothesis that environmental triggers, genetic markers, and susceptibility genes could contribute to the pathophysiology of the disease. Reference Ma, Qu, Ye, Shu and Blepharospasm2

The COVID-19 pandemic developed literature in neurological findings following coronavirus infections. The most reported movement disorder following a COVID infection is myoclonus. Reference Brandão, Grippe, Pereira, Munhoz and Cardoso4Reference Przytuła and Sławek6 Other commonly reported hyperkinetic movement disorders are ataxia and opsoclonus. Reference Przytuła and Sławek6 Few studies have reported the occurrence of other movement disorders such as blepharospasm and focal dystonia, but they are thought to be fairly rare. Reference Przytuła and Sławek6 Three cases of blepharospasm have been reported with presentation occurring from 2 weeks to 4 months after the onset of symptomatic COVID infection. Reference Farci, Fossarello and Carta7 One case of dystonia of the upper extremities was described following a symptomatic SARS-CoV-2 infection. Reference Brandão, Grippe, Pereira, Munhoz and Cardoso4,Reference Thiel and Jost8 As for patients already having a diagnosis of dystonia and hemifacial spasm, 65 percent of them noted worsening of symptoms, mostly due to delays in botulinum toxin injections rather than the COVID infection itself. Reference Schneider, Hennig and Martino5 Although the mechanism by which COVID may cause these neurological findings is not clear, most researchers speculate an underlying immunological cause, Reference Brandão, Grippe, Pereira, Munhoz and Cardoso4Reference Przytuła and Sławek6,Reference Thiel and Jost8 such as molecular mimicry, especially since these cases seemed to respond well to immune therapies. Reference Przytuła and Sławek6 In asymptomatic or mildly symptomatic patients, structural damage and toxic or metabolic anomalies are less likely to explain the occurrence of movement disorders, making an immune-mediated cause even more persuasive. Reference Przytuła and Sławek6 Other groups hypothesized a diencephalic dysfunction due to trans-neural penetration of COVID, Reference Schneider, Hennig and Martino5,Reference Farci, Fossarello and Carta7 structural damage such as anoxic brain injury or stroke, Reference Brandão, Grippe, Pereira, Munhoz and Cardoso4,Reference Schneider, Hennig and Martino5 toxic or metabolic anomalies, Reference Przytuła and Sławek6 and adverse drug reactions. Reference Schneider, Hennig and Martino5

We believe this represents the first reported case of Meige syndrome following COVID infection. Due to the underreported nature of post-COVID movement disorders, it is plausible that the occurrence of COVID acted as an environmental trigger, causing Meige syndrome in our patient through epigenetic or immune-mediated interactions. Since hyperkinetic movement disorders following COVID infection have been reported to respond well to immune therapies, corticosteroids and intravenous immunoglobulins might be considered as treatment options. Alternatively, since our patient is in the typical age range of symptom onset and most cases of Meige syndrome are idiopathic, she may have coincidentally developed idiopathic Meige syndrome during the period following her asymptomatic COVID infection. The causal relationship between Meige syndrome and COVID infection is uncertain, but this report adds to the literature of potentially rare manifestations following COVID.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/cjn.2023.298.

Acknowledgments

None.

Author contributions

AL contributed to patient recruitment and consent. EG contributed to literature review. Both AL and EG contributed to drafting of the manuscript and video editing.

Funding statement

None.

Competing interests

None.

Ethical statement

This article did not require an IRB approval, as it was a case report. Information was anonymized, and we obtained an informed consent form. We have a signed patient consent form (dated 2022-09-22). We confirm that we have read the Journal’s position on issues involved in ethical publication and affirm that this work is consistent with those guidelines.

References

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Khooshnoodi, MA, Factor, SA, Jinnah, HA. Secondary blepharospasm associated with structural lesions of the brain. J Neurol Sci. 2013;331:98101.CrossRefGoogle ScholarPubMed
Brandão, PRP, Grippe, TC, Pereira, DA, Munhoz, RP, Cardoso, F. New-onset movement disorders associated with COVID-19. Tremor Other Hyperkinet Mov (N Y). 2021;11:26.CrossRefGoogle ScholarPubMed
Schneider, SA, Hennig, A, Martino, D. Relationship between COVID-19 and movement disorders: a narrative review. Eur J Neurol. 2022;29:1243–53.CrossRefGoogle ScholarPubMed
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Farci, R, Fossarello, M, Carta, A. Blepharospasm as a tardive manifestation of COVID-19 disease: a case report. Indian J Ophthalmol. 2023;71:669–70.CrossRefGoogle ScholarPubMed
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