key: cord-0721682-ojdil57m
authors: Beshir, Elham; Belt, Ernestina; Chencheri, Nidheesh; Saqib, Aqdas; Pallavidino, Marco; Terheggen, Ulrich; Abdalla, Abdalla; Herlitz, Leal; Sharif, Elsadeg; Bitzan, Martin
title: Case Report: Guillain-Barré Syndrome as Primary Presentation of Systemic Lupus Erythematosus (SLE-GBS) in a Teenage Girl
date: 2022-03-17
journal: Front Pediatr
DOI: 10.3389/fped.2022.838927
sha: 52af58431533e449269ceff733dfbc405f74eccc
doc_id: 721682
cord_uid: ojdil57m

Peripheral nervous system involvement accounts for fewer than 10% of SLE cases with neuropsychiatric manifestations. Guillain-Barré syndrome (GBS) as the presenting, major manifestation of pediatric SLE is extremely rare, and the best treatment approach is unknown. A 14-year-old, previously healthy female teenager developed classic features of GBS with ascending bilateral muscle weakness leading to respiratory insufficiency, associated with protein-cell dissociation in cerebro-spinal fluid, nerve root enhancement by MRI and reduction in compound muscle action potential amplitude. SLE was diagnosed serologically and histologically (lupus nephritis WHO class II). Despite immediate treatment with intravenous immunoglobulin (IVIg), methylprednisolone pulses and subsequently, rituximab, the patient required prolonged mechanical ventilation. She achieved full recovery following 14 PLEX treatments and two more rituximab infusions. Anti-dsDNA, C3, C4 and urinalysis normalized while anti-Smith and Sjögren antibodies persisted 15 months after disease onset, with no other lupus manifestations. Review of the literature revealed two pediatric cases of GBS at the onset of SLE and a third case with GBS 6 years after the diagnosis of SLE. Conventional GBS therapy may not be adequate to treat SLE-GBS. SLE should be included in the differential diagnosis of GBS. Importantly, treatment experiences and outcomes of such cases need be reported to inform future treatment recommendations.

Guillain-Barré syndrome (GBS) has been defined as an acute autoimmune polyradiculoneuritis affecting the peripheral nervous system [acute inflammatory polyradiculoneuropathy (AIPN)]. The classical description refers to the landmark paper by Guillain et al. (1) . "GBS" syndrome (2) is thought to be a post-infectious autoimmune disease, resulting from the immune-mediated injury of myelin and/or axonic neurons; the contribution of genetically mediated dysregulation of inflammation and immune responses has been postulated [summarized in (3, 4) ]. GBS has been described occasionally in systemic lupus erythematosus (SLE) patients (5) (6) (7) (8) , generally without preceding infection. Incidence estimates of "classical" (non-SLE related) GBS are 0.5-2 cases per 100,000 population per year (9) . The disease peaks during adolescence and in older age and appears to affect males more often than females (3, 10) . Fatal outcome has been reported (11) (12) (13) .

SLE is an autoimmune disease with multi-organ involvement and substantial morbidity. Its etiology involves genetic, epigenetic, and environmental factors (14) . The initial diagnosis of SLE can pose diagnostic challenges due to its variable presentation. The incidence of neuropsychiatric symptoms (NPSLE) among children with SLE ranges from 14 to 75% (8, 15 ). Peripheral nervous system involvement, including GBS, accounts for <10% of NPSLE cases (7, 8) . CNS symptoms rarely precede the onset of typical features of SLE (5) . Among the few reported cases of SLE with GBS as initial presentation, only two were in the pediatric age group (16, 17) . In another pediatric case of SLE-GBS (18) , the neurological complication developed 6 years after the lupus diagnosis. The exact pathogenic mechanism remains unknown, and a consensus about the treatment of SLE-GBS has still to emerge.

Here, we describe a third pediatric patient with GBS as the initial manifestation of SLE. She experienced progressive, ascending muscle weakness that led to the diagnosis of GBS, while lupus was diagnosed on the basis of laboratory tests and renal biopsy during the acute GBS presentation. We further detail the interdisciplinary diagnostic and therapeutic approach which resulted in the full recovery of the patient.

This case is unique in that GBS is a rare, but clinically dramatic complication of (pediatric) SLE. Here GBS preceded the recognition of (mild) lupus. A detailed description of clinical presentation, therapy, and outcome is of practical relevance to inform future management recommendations. This case and a comparison of previous pediatric (and adult) reports suggest that SLE-GBS and classical GBS require a modified treatment approach.

A 14-year-old previously healthy teenager presented with a 4week history of numbness and paresthesia in both legs, 10 days of disparate eye movements with subjective rightward-gaze diplopia, and 6-8 days of ascending, bilateral muscle weakness, more pronounced on the left. She had not been able to walk for 7 days when she presented to our Emergency Department and had developed mild swallowing difficulties, a temperature of 38 seizures, rash, edema, joint pain, or macroscopic hematuria. The family also denied changes in her mood, behavior or academic performance. No constipation or urinary retention was reported. She menstruated regularly, last 3 weeks prior to hospitalization.

There was no history of sick contacts, including COVID-19, or recent travel outside the country. She was fully immunized according the national schedule, including polio and quadrivalent N. meningitidis vaccines.

Family history is significant for a paternal aunt with a presumptive diagnosis of SLE. Several members of the paternal family have hypothyroidism and glucose-6-phosphate dehydrogenase (G6PD) deficiency. The patient's older sister has been treated for hyperthyroidism. There is type 2 diabetes mellitus and arterial hypertension in elderly members of the family. Consanguinity was denied.

At the time of admission, the patient was bed-bound due to severe generalized weakness but was conscious and alert. She complained of diplopia and swallowing difficulty. Cranial nerve examination showed right eye convergent squint and bilateral gaze palsy, right more than left. The pupils were equal and reactive. There was no ptosis or facial muscle weakness, but she had bulbar symptoms and a weak gag reflex. Shoulder and arm movements were weak, corresponding to Medical Research Council (MRC) Muscle Scale 1-2/5 (19) . Dorsiflexion at the wrist against gravity was 3/5, and the palmar grasp was weak. The lower limbs also demonstrated significant proximal weakness with MRC scale of 1/5 at hip and knee joint movements. The ankle dorsiflexion and plantar flexion appeared less affected with MRC scale of 3-4/5. Overall, the left side appeared weaker than the right. She was very hypotonic, with total areflexia. She complained of paresthesia, but there was no sensory impairment, cerebellar signs or meningeal irritation. At presentation, she had no vasculitic lesions, arthralgia, cardiac, or other system abnormalities.

Initial laboratory findings included a mildly decreased absolute lymphocyte count, normal creatinine clearance (eGFR 144 ml/min/1.73 m 2 ), and elevated erythrocyte sedimentation rate with only slightly elevated C-reactive protein (CRP). Screening for an autoimmune etiology of her presentation revealed decreased CH50, low C3 and C4 serum levels, elevated antinuclear (ANA) and anti-dsDNA antibodies, and rheumatoid factor ( Table 1) . Creatine kinase, acetylcholine receptor antibody, thyroid function and B12 levels were normal.

Subsequently, antibodies to extractable nuclear antigens (ENA), including ribonucleoprotein (RNP), chromatin, Smith and SS-A (Ro)/SS-B (La), were detected in high concentrations. The initial urine sample showed a small amount of protein.

Hematuria and proteinuria peaked about 2 weeks after admission ( Table 1) .

The laboratory results were suggestive of SLE. A kidney biopsy was performed on day 8 of admission; results were consistent with lupus nephritis WHO class II, with a "full house" immunofluorescence pattern (20) (Figure 1) . Cerebrospinal fluid analysis prior to treatment revealed protein-cell dissociation with an increased total protein concentration, mainly due to IgG and IgA and only 3 × 10 6 /L mononuclear cells (lymphocytes and monocytes) ( Table 1) . Sequential COVID-19 PCR tests over the first 2 ½ weeks and SARS-CoV-2 specific IgG antibody assays remained negative. CMV IgG was elevated, but CMV IgM, EBV serology, and Mycoplasma IgM results were negative.

MRI of the spine showed normal cord width, signal morphology and intensity, and no syrinx or central spinal canal widening. There was mild enhancement of nerve roots in the cervical and thoracic regions, and mild thickening of the cauda equina nerve roots (Figure 2 ).

The nerve conduction study from Day 25 of admission showed significant reduction in compound muscle action potential (CMAP) amplitude in all four limbs with mild reduction in conduction velocity. Sensory conduction was normal. Overall, the findings were suggestive of acute motor axonal neuropathy typical of Guillain-Barré syndrome.

Based on the Brighton criteria, the patient had the highest level of diagnostic certainty for acute inflammatory demyelinating polyneuropathy (GBS) (21) . Treatment was initiated with 2 g IVIG per kg body in a single dose without clinical improvement, followed by three methylprednisolone pulses of 1 g each. However, her muscle weakness progressed, leading to hypoventilation. Spirometry showed a decline in vital capacity over the preceding 48 h from 25 to about 15 ml/kg, prompting elective endotracheal intubation and ventilation on day 7 of admission. Due to the lack of improvement following methylprednisolone pulses, IVIG, and subsequently rituximab, we started plasma exchange (PLEX) therapy on day 14 of admission (Figure 3) .

Tracheostomy was performed on day 20 of admission in anticipation of prolonged invasive ventilation. Post tracheostomy analgosedation was weaned completely allowing neurological assessment of the wake patient and initiation of rehabilitative therapies. Of note, the patient experienced a brief episode of hyperactive delirium post tracheostomy.

The disease course was complicated by labile blood pressure, mostly hypertension, likely due to central autonomous dysregulation (9, 22) . While intubated, she developed an uncomplicated, ventilator-associated S. pneumoniae pneumonia, diagnosed on day 9 of admission. The patient suffered from painful dysesthesia which improved with high-dose gabapentin and fentanyl boluses. Hair loss was noted during the early course of the disease. She received low molecular weight heparin (enoxaparin) during the period of paralysis.

PLEX treatment consisted of 14 sessions over 22 days, where 1-1.5 times the plasma volume was replaced with 5% albumin and 0.5 L fresh frozen plasma to maintain physiological coagulation factor concentrations. After about nine exchanges, the patient's muscle strength and respiratory efforts started to improve, and after the 12th session, we were able to gradually wean ventilator support.

The treatment was completed with two additional doses of rituximab on days 39 and 48 of admission. Peripheral CD19 + B cells was undetectable following the first rituximab infusion. The patient was discharged home on Day 70 of admission with continued physiotherapy. At her first follow-up visit 4 days after discharge, she ambulated freely and performed all daily activities without assistance. Fourteen months after discharge, the patient maintains normal muscle strength. She was able to wean immunosuppression to hydroxychloroquine only. Peripheral CD19/20+ B cells started to reappear 9.5 months after the last rituximab dose, but remained low at 0.025/nL (N 0.200-0.600/nl). Serum levels of C3, C4 and anti-dsDNA antibodies, renal function and urinalysis were all normal.

SLE is a chronic autoimmune disease with multiple organ system involvement. Although lupus was not suspected initially, an antinuclear antibody panel and complement 3 and 4 concentrations were requested early after patient transfer to screen for an underlying etiology, particularly in view her family history with cases of SLE and (autoimmune) thyroid disease, respectively ( Table 1) . Recent infection or vaccination, including COVID-19, a newly recognized trigger of GBS or GBS spectrum (23) (24) (25) , were ruled out (SARS-CoV-2 vaccines were not yet available at the time).

The clinical spectrum of SLE is variable and includes cutaneous, musculoskeletal, renal and neuropsychiatric manifestations. The American College of Rheumatology (ACR) research committee described twelve central (CNS) and seven peripheral nervous system (PNS) manifestations (including GBS) of neuropsychiatric SLE where other causes have been excluded (26) . GBS can occur concomitantly with the initial presentation of SLE or years after the lupus diagnosis (15, 16, 18, 27) . A large study from China (28) comprising 4,924 SLE patients, identified a subset of 73 patients (1.5%) with peripheral neuropathy, of whom a single patient presented with acute inflammatory demyelinating polyradiculoneuropathy (AIDP/GBS). A systematic review, summarizing data of 1,463 children and adolescents with SLE, identified 351 patients with NPSLE, two of whom presented with GBS (0.6% of all NPSLE patients) (5, 8) . No clinical details are available from those cases.

The pathophysiology of GBS in SLE patients remains speculative and is thought to involve lupus-induced auto-antibodies against myelin tissue (3, 29) .

Treatment of GBS has been essentially unchanged over the past three decades (30) . IVIg (2 g/kg divided over 5 days) or PLEX (5 sessions on alternate days (30) (31) (32) were shown to be equally effective treatment modalities for classical GBS, although some patients may respond slowly and/or achieve only partial resolution or may even worsen during conventional treatment (30) . A combination of IVIg and PLEX has been advocated by some authors for recalcitrant cases of GBS (33) . At variance with earlier EULAR treatment recommendations for SLE with neuropsychiatric manifestations (34), high-dose glucocorticoids alone have not shown benefit compared to placebo, nor in combination with IVIg or plasma exchange (30, 35, 36) .

There are no published clinical trials or contemporary therapeutic guidelines for patients with SLE-GBS. Anecdotally, adult patient were treated with high-dose glucocorticoids, IV or oral cyclophosphamide, PLEX, IVIg, and mycophenolate mofetil, in various combinations (6, 7, 27, 29, 37, 38) .

Current treatment recommendations for pediatric (non-SLE) GBS emphasize the use of IVIG over PLE (39, 40) . However, this approach appears to be inadequate for patients with severe SLE-GBS as inferred from available experience in children and adults (5, 7, 16-18, 27, 29, 37, 38) , including our patient.

The management of GBS patients in the critical (intensive) care unit (ICU), especially those requiring prolonged mechanical ventilation, can be challenging. The decision for tracheostomy is based on the expected duration of respiratory failure which may range from a few days to more than 6 months (41, 42) . Early tracheostomy (43) helps avoid the drawbacks of long-term oral or nasal intubation and adequate sedation, and allows the patient to cooperate with functional assessment and physiotherapy.

We found only three previous descriptions of pediatric patients with SLE-GBS (see Table 2 ). Reddy et al. reported a 9-year-old girl from India who presented with progressive weakness over the preceding 4 days and a month after the onset of lupus symptoms (16) . Treatment with IVIg, methylprednisolone pulses and IV cyclophosphamide failed to prevent progression to (17) . He experienced a relapsing course with only partial improvement following high-dose glucocorticoid treatments. Interesting, antinuclear (ANA) and anti-dsDNA antibodies were noted at initial GBS presentation. He only achieved lasting GBS remission after commencing IV cyclophosphamide therapy in addition to IVMP pulses and hydroxychloroquine (17) . The two cases differ from the scenario described in a singular earlier report of a 13-year-old Japanese teenager with "late onset SLE-GBS, " more than 6 years after the diagnosis of SLE and four months after a lupus flare, with ongoing cutaneous manifestations. He gradually recovered following PLEX, IVIg (0.4 g/kg), and high-dose glucocorticoid treatment (18) ( Table 2 ).

The strengths of the current paper are the detailed diagnostic workup and timely interdisciplinary care, and a synoptic review of all accessible pediatric cases. Limitations are those inherent in (anecdotal) case presentations.

In conclusion, our report highlights the importance of prompt recognition of SLE as a trigger of GBS, which changes conventional GBS management. Due to the rarity of SLE-GBS within the GBS spectrum, specific treatment recommendations are lacking. It is plausible to target the underlying autoimmune disorder (SLE) and the removal of presumed pathological antibodies and/or suppression of harmful proinflammatory effects. B cell depleting agents and plasma exchange are potentially effective strategies. While glucocorticoids have no proven role in the treatment of GBS, their administration in SLE-GBS as part of the control of lupus needs be redefined. The dissemination of further experiences and studies is warranted to establish therapeutic efficacies and outcomes for children presenting with GBS in the context of SLE.

The datasets generated for this study are available on request to the corresponding author.

EBes participated in the care of the patient, collected data, reviewed the literature, and wrote the manuscript. EBel supervised the medical treatment and revised the manuscript. NC and AA supervised and interpreted the neurological aspects of the diagnosis and treatment, and contributed to the manuscript. AS, MP, and UT supervised the patient's treatment in the critical care unit and contributed to the manuscript. LH read and interpreted the kidney biopsy and provided the photographs. ES provided expert rheumatological advice. MB contributed to the patient's medical and renal care, reviewed and interpreted the clinical and laboratory data, and wrote and edited the manuscript. All authors critically reviewed the manuscript and agreed to the final version.

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We thank Dr. Muhammad Anwar for radiological expertise, Dr. Hisham Hamdan for lung function tests, Dr. Aji Mathew, and numerous physicians, nurses and other health professionals who contributed to the care and well-being of the patient and her family. We further thank the team at Sheikh Khalifa Specialty Hospital in Ras Al Khaimah, UAE for referring the patient to our care. The authors also thank the patients and her parents for their consent to publish this report.

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.