Syndromewith Paresthesia Subtype of Guillain-Barré Associated Bifacial Weakness - COVID-19

SUMMARY: We report a case of bifacial weakness with paresthesia, a recognized Guillain-Barré syndrome subtype characterized by rapidly progressive facial weakness and paresthesia without ataxia or other cranial neuropathies, which was temporally associated with antecedent coronavirus 2019 (COVID-19). This case highlights a potentially novel but critically important neurologic association of the COVID-19 disease process. Herein, we detail the clinicoradiologic work-up and diagnosis, clinical course, and multidisciplinary medical management of this patient with COVID-19. This case is illustrative of the increasingly recognized but potentially underreported neurologic manifestations of COVID-19, which must be considered and further investigated in this pandemic disease.

GBS that demonstrated a postinfectious temporal association with COVID-19, developing approximately 2 weeks after the onset of COVID-19 symptomatology.This Health Insurance Portability and Accountability Act-compliant investigation was reviewed by the institutional review board at our medical school and was (BFP) exempt from further review and monitoring.

Case Report
A 21-year-old man presented to the emergency department with progressive 4-day history of fever, cough, dyspnea, diarrhea, nausea, headache, and sinonasal congestion.Aside from a medical history of hypertension, prediabetes, and class I obesity, the patient was otherwise healthy and denied tobacco, alcohol, substance abuse, or recent travel.Vital signs were remarkable for a body temperature of 37.5°C, blood pressure of 116/57 mm Hg, pulse of 76 beats per minute, and oxygen saturation of 95% on room air.Physical examination documented nonlabored respirations and clear lungs.Neurologic examination was intact.Chest radiographs (Fig 1) demonstrated patchy bilateral air space opacities without lobar consolidation.
A nasopharyngeal swab was performed, and a respiratory pathogen panel was negative for all tested pathogens.Additionally, nasopharyngeal and oropharyngeal swab specimens were sent to an outside private laboratory for SARS-CoV-2 real-time reverse transcriptase polymerase chain reaction (PCR) assay.He was discharged home with pulse oximetry monitoring, self-isolation instructions, and strict return precautions.
During the next 24 hours, the patient experienced increased dizziness with oxygen saturation falling into the mid-80s documented by pulse oximetry.He returned to the emergency department febrile (body temperature of 39.1°C), mildly tachycardic (102 beats per minute), tachypneic (28 breaths per minute), and hypoxic (89% on room air).Chest radiographs demonstrated increased bilateral air space opacities, and a complete blood count revealed lymphopenia (absolute lymphocyte count of 0.7 K/ mm 3 ).He was admitted for oxygen support and monitoring, and blood oxygenation was weaned from 2 L by nasal canula to room air.He was discharged home on hospital day 4, and his sent-out testing confirmed COVID-19 positivity the day after discharge.
He initially did well with convalescence at home, but on day 16 of illness, he began to experience right-sided facial numbness and weakness.During 24 hours, his symptoms became bilateral and resulted in severe dysarthria, necessitating a return to the emergency department.He also reported associated hypogeusia.Neurologic examination demonstrated a bilateral lower motor neuron pattern of facial weakness with otherwise normal cranial nerve (CN) examination findings, preserved strength sensation in all extremities, and intact muscle stretch reflexes.He was admitted for observation and underwent MR imaging of the brain and temporal bones, as well as fluoroscopically guided lumbar puncture for CSF sampling.The CSF was negative for bacterial culture and stain and demonstrated normal glucose levels (65 mg/dL), no leukocytes, and mildly elevated protein levels (49 mg/dL).MR imaging demonstrated abnormal enhancement of the facial (CNVII) and abducens (CNVI) nerves bilaterally, as well as the right oculomotor nerve (CNIII) (Figs 2-4).
The patient was discharged with stable facial weakness, no progression of symptoms, and oxygen saturation of 99% on room air.Neurology outpatient follow-up was arranged with multiple CSF and serum lab results pending.On day 19 of illness, he reported new subjective bilateral lower extremity weakness, bilateral upper extremity paresthesia, and continued facial weakness, prompting readmission for further work-up and treatment.Repeat neurologic examination demonstrated unchanged bifacial weakness, but new grade 4/5 weakness in the deltoids and hip flexors bilaterally, as well as diffuse areflexia.MR imaging of the total spine was performed, which did not reveal any suspicious spinal cord signal abnormality or abnormal enhancement of the cord or cauda equina.Electromyography and nerve conduction studies demonstrated findings consistent with an acute sensorimotor polyneuropathy with both demyelinating and axonal features (On-line Tables 1-4).
For religious reasons, he declined treatment with intravenous immunoglobulin (Ig) and alternatively underwent treatment with 5 cycles of plasma exchange, which he tolerated well with slight improvement in facial weakness and paresthesia.Findings of CSF labs and serologies remained negative except for serum herpes simplex virus (HSV), immunoglobulin G (IgG), and immunoglobulin M (IgM), and the patient was discharged to inpatient rehabilitation.He declined a repeat lumbar puncture that was offered before discharge.

Specimen Testing for COVID-19
Positive SARS-CoV-2 viral status was confirmed via initial sent-out nasopharyngeal/oropharyngeal swabs.On subsequent hospital readmission, internal PCR reconfirmed SARS-CoV-2 viral status.Repeat PCR before discharge was negative for SARS-CoV-2 detection.

Specimen Testing for GBS
Serologic testing for infectious and inflammatory mimics was unremarkable apart from elevated HSV-1 IgG of .8.0 and initial HSV-1/2 IgM of 1.07 index values (On-line Tables 6-9).Repeat HSV-1/2 IgM at 10 days postpresentation was further elevated at index values.CSF protein was mildly elevated (49 mg/dL, which corrected to 46 mg/dL when accounting for 2425 red blood cells) with no white blood cells.CSF stains were negative for bacterial or fungal organisms, and cultures demonstrated no growth.The CSF meningoencephalitis panel and Bartonella species, syphilis, and Lyme disease tests were also negative (On-line Table 10).

DISCUSSION
Our report details a case of bifacial weakness and paresthesia subtype Guillain-Barré syndrome that was temporally associated with COVID-19.In our case, a patient with antecedent community-acquired COVID-19 pneumonia developed rapidly progressive bilateral facial weakness, extremity paresthesia, and mild proximal extremity weakness without ataxia or other cranial neuropathies 16 days after the onset of COVID-19 symptomatology.][10] Our patient demonstrated imaging findings that align with prior reports of GBS following antecedent viral infections. 11,12Enhancement of the cranial nerves is a known MR imaging finding in GBS, 8,13,14 and most interesting, our patient demonstrated abnormal enhancement of CNVI bilaterally and the right CNIII, which were clinically asymptomatic.On the basis of clinical grounds, we suspect that this indicates subclinical disease in the BFP variant of GBS, rather than the Miller Fisher variant of GBS, 15 given lack of ophthalmoparesis and ataxia.Our patient did not demonstrate any typical spinal imaging manifestations of GBS, which may include thickening of the cauda equina nerve roots with enhancement, often with a ventral nerve root predilection. 16,17o date, a recent editorial correspondence reports a small observational series of 5 cases of suspected COVID-19-associated GBS, 8 but no prior detailed clinical reports have been published.In a previously reported case of possible COVID-19-associated GBS in a patient with recent travel to Wuhan, the patient manifested an atypical temporal profile with acute bilateral lower extremity weakness as an initial presenting symptom and subsequent development of COVID-19 pneumonia on hospital day 8, raising concern for coincidental disease processes and possible nosocomial infection. 7ur case demonstrates a postinfectious temporal relationship between antecedent SARS-CoV-2 infection and GBS symptomatology, but positive HSV serologies remain a confounder.Although ubiquitous, HSV infection has been reported as an extremely rare antecedent to GBS. [18][19][20][21][22] Whether in our case the GBS was directly caused by COVID-19, the COVID-19-associated systemic inflammatory response unmasked or exacerbated an HSV-mediated GBS, or the patient simply manifested unfortunately timed coexisting disease processes remains unknowable.However, we note prior immunologic research by Ziganshin et al 19 that demonstrated an increased risk of GBS triggering in simultaneous polyviral infection, including HSV, which might have important implications for the pathoetiology of GBS in our patient.Most important, the temporal association of antecedent COVID-19 and subsequent development of GBS symptomatology in our patient necessitates physicians being made aware of this possible linkage consideration.
GBS is a diverse disorder of the peripheral nervous system characterized by acute immune-mediated neuropathy, which may be broadly categorized into acute motor axonal neuropathy, acute inflammatory demyelinating polyradiculoneuropathy, and acute motor-sensory axonal neuropathy, [23][24][25] as well as subdivided into clinically distinct variants, such as Miller Fisher variant and BFP. 9,10,15][25][26] GBS is thought to be due, in great part, to molecular mimicry, 23 whereby antibodies created in response to infectious antigens cross-react with neurons and the myelin sheath, causing demyelination and/or axonal damage.GBS is typically multiphasic, with rapid progression, a prolonged plateau, and variable recovery with approximately 15%-20% permanent disability at 1 year. 23,27BS-related mortality is approximately 5%, often due to neuromuscular respiratory failure and autonomic dysfunction. 23,27arly intravenous immunoglobulin or plasma exchange, along with supportive care, is the mainstay of therapy.
There are limited data regarding neurologic manifestations of COVID-19 infection.A recently published retrospective, observational case series from Mao et al 4 suggested that neurologic manifestations of COVID-19 may be underrecognized.They report neurologic manifestations in up to 36% of hospitalized patients with COVID-19, including dizziness (16.8%), headache (13.1%), and altered level of consciousness (7.5%), as well as impaired taste (5.6%), smell (5.1%), and vision (1.4%), but no cases of GBS.COVID-19 has recently been implicated as a presumptive cause of acute hemorrhagic necrotizing encephalopathy, which may represent an intracranial manifestation of a COVID-19-related cytokine storm. 5There is also suspicion that the prothrombotic and proinflammatory states associated with COVID-19 may increase the incidence of cerebrovascular disease, 4,6 though there is a paucity of evidence in the currently published literature.Neurotropic animal and human coronaviruses have been identified, 28 and coronavirus-associated GBS has been previously reported, including Middle East Respiratory Syndrome. 29,30Given genetic similarities among the coronaviruses, it is conceivable that similar neuropathology might be seen with SARS-CoV-2.

CONCLUSIONS
This report details a case of postinfectious acute peripheral polyneuropathy in a patient recently diagnosed with and convalescing from community-acquired COVID-19, highlighting the multidisciplinary collaboration required to diagnose and manage this complex patient.The clinicoradiologic features and temporal profile are most consistent with a BFP subtype of GBS.Given the paucity of data regarding neurologic manifestations of COVID-19, this case highlights the need for continued close attention to and reporting of its potential neurologic sequelae.

FIG 1 .FIG 2 .
FIG 1.Initial chest radiographs in a patient with COVID-19 and subsequent bifacial weakness and paresthesia subtype Guillain-Barré syndrome.Posterior-anterior (A) and lateral (B) upright chest radiographs demonstrate low lung volumes with patchy bilateral air space opacities, but no lobar consolidation.

FIG 3 .
FIG 3. MR imaging of the temporal bones in a patient with antecedent COVID-19 and new-onset bifacial weakness and paresthesia subtype Guillain-Barré syndrome.Axial postcontrast T1weighted fat-saturated MR imaging of the temporal bones (A) shows subtle-but-abnormal enhancement along the cisternal segments of the abducens nerves (CNVI) bilaterally (white arrows), as well as subtle enhancement along the tympanic segments of the intratemporal facial nerves (CNVII) bilaterally (white arrowheads).Coronal postcontrast T1-weighted fat-saturated MR imaging (B) shows subtle asymmetric enhancement along the cisternal segment of the right oculomotor nerve (CNIII, black arrow).