metricas
covid
Buscar en
Clinics
Toda la web
Inicio Clinics SARS-CoV-2 vaccinations reduce the prevalence of post-COVID Guillain-Barre syndr...
Información de la revista
Vol. 77.
(enero - diciembre 2022)
Compartir
Compartir
Descargar PDF
Más opciones de artículo
Visitas
1384
Vol. 77.
(enero - diciembre 2022)
Review articles
Acceso a texto completo
SARS-CoV-2 vaccinations reduce the prevalence of post-COVID Guillain-Barre syndrome
Visitas
1384
Josef Finsterera,
Autor para correspondencia
fifigs1@yahoo.de

Corresponding author.
, Daniel Matovub, Fulvio A. Scorzab
a Neurology & Neurophysiology Center, Vienna, Austria
b Disciplina de Neurociência, Universidade Federal de São Paulo/Escola Paulista de Medicina (UNIFESP/EPM), São Paulo, SP, Brasil
Highlights

  • SARS-CoV-2 infections can be complicated by Guillain-Barre Syndrome (GBS).

  • The prevalence of SARS-CoV-2 associated GBS declined since the introduction of SARS-CoV-2 vaccines.

  • The outcome of SARS-CoV-2 associated GBS is worse among those with comorbidities compared to those without.

Este artículo ha recibido
Información del artículo
Resumen
Texto completo
Bibliografía
Descargar PDF
Estadísticas
Figuras (1)
Tablas (4)
Table 1. Patients with PCG as reported by the end of June 2020.
Table 2. Patients with PCG as reported from July to December 2020.
Table 3. Patients with PCG reported from 1.1.2021 to 30.6.2021.
Table 4. Comparison of PCG patients between first and second half of 2020 and the first half of 2021.
Mostrar másMostrar menos
Abstract

Guillain-Barre Syndrome (GBS) has been repeatedly reported as a neurological complication of COVID-19 (post-COVID GBS [PCG]). Whether the introduction of SARS-CoV-2 vaccines reduced the prevalence of PCG is unknown. This narrative review aimed to compare the number of published PCG cases between the second half of 2020 (no vaccination available) with those of the first half of 2021 (vaccination available). A total of 124 articles reported 300 patients with PCG between January 2020 and June 2021. The ages ranged from 7 to 94y. There was male dominance. The latency between the onset of COVID-19 and the onset of PCG ranged from -10 to 90d Acute, inflammatory, demyelinating polyneuropathy was diagnosed in 171 patients, acute, motor axonal neuropathy in 24, and acute, motor, and sensory axonal neuropathy in 16 patients. Regarding treatment, 241 patients received immunoglobulins, 28 patients’ plasmaphereses, and 7 patients' steroids. Artificial ventilation was required in 59 patients. Full recovery was achieved in 42 cases, partial recovery in 163 cases, and 17 patients died. The number of published PCG patients fell from 192 in the second half of 2020 to 75 patients in the first half of 2021. It is concluded that the prevalence of PCG has decreased since the introduction of SARS-CoV-2 vaccines. SARS-CoV-2 vaccinations have a positive effect on the prevalence of PCG.

Keywords:
SARS-CoV-2
COVID-19
Neuro-COVID
Complications
Polyradiculitis
Vaccination
Abbreviations:
AIDP
AMAN
AMSAN
BSE
CSF
GBS
IVIG
PCB
PCG
PNC/MNC
Texto completo
Introduction

Guillain-Barré Syndrome (GBS) is an increasingly perceived complication of SARS-CoV-2 (COVID-19) infections.1 In the first half of 2020, only a few patients with SARS-CoV-2 associated GBS (post-COVID GBS (PCG)) were published.1–9 In the second half of 2020 the number of published PCG patients increased significantly. Since December 2020 several brands of SARS-CoV-2 vaccinations have been launched. It is unknown whether the frequency of PCG has decreased since the introduction of these anti-SARS-CoV-2 vaccinations. Therefore, the present narrative, up-to-date review aimed to compare the number, demographics, clinical presentation, therapeutic management, and outcome of PCG in the 6 months before and after vaccine availability (July to December 2020 compared with January 2021 to June 2021) and to answer the question of whether SARS-CoV-2 vaccinations reduce the prevalence of PCG.

Methods

A literature search in the databases PubMed and Google Scholar using the search terms “neuropathy”, “Guillain Barre syndrome”, “polyradiculitis”, “AIDP”, “AMAN”, “AMSAN”, “Miller-Fisher syndrome”, “polyneuritis cranialis”, “cranial nerve”, and “Bickerstaff encephalitis”, in combination with “SARS-CoV-2″, “COVID-19″, and “coronavirus” was conducted. Additionally, reference lists were checked for further articles meeting the search criteria. Included were only original articles detailing individual patients’ data (age, sex, latency between onset of COVID-19 and onset of GBS, GBS subtype, results of CSF investigations, comorbidities, treatment, and outcome) published between January 2020 and June 2021.1 Excluded from data analysis were reviews, abstracts, proceedings, and editorials. Cohort studies that did not provide sufficient individual data were also excluded.

Results

By the end of June 2021, a total of 124 articles were found that met the inclusion criteria and described individual patients with PCG (Fig. 1). The first patient with PCG was reported by Zhao et al. in May 2020.10,11 By the end of June 2020, 33 patients with PCG were published (Table 1). From July to December 2020, 192 PCG patients were published (Table 2). From January 2021 to the end of June 2021, a further 75 PCG patients were published (Table 3). The 124 articles published from early January 2020 to late June 2021 reported 300 patients with PCG (Table 4). Relevant data on age, gender, onset before/after COVID-19, latency between COVID-19 and onset of PCG, the subtype of GBS, PCR result in the Cerebrospinal Fluid (CSF), therapy, and outcome are presented in Table 4. The ages of these patients, available from 295 patients, ranged from 7 to 94y. The sex was male in 201 cases and female in 92 cases. The onset of PCG, available from 243 cases, was identified in 233/3/7 patients after/along with/before the onset of COVID-19. The latency between the onset of COVID-19 and the onset of PCG ranged from −10 and 90 days. The GBS subtype, reported in 233 cases, was identified as Acute, Inflammatory, Demyelinating Polyneuropathy (AIDP) in 171 patients, as Acute, Motor Axonal Neuropathy (AMAN) in 24, as Acute, Motor and Sensory Axonal Neuropathy (AMSAN) in 16, as Miller-Fisher Syndrome (MFS) in 8 patients, as Poly- or Mono-Neuritis Cranialis (PNC/MNC) in 3, and as Pharyngeal, Cervical, and Brachial (PCB) variant in 1 patient. Bickerstaff Encephalitis (BFE) was not reported in any case. SARS-CoV-2 was only detected in the CSF of a single patient. Therapy of PCG, available in 270 cases, included Intravenous Immunoglobulins (IVIG) in 241 patients, plasmapheresis in 28, steroids in 7, and no therapy in 8 cases. Artificial ventilation was required for 59 patients. The outcome, available from 222 cases, was rated as full recovery (n = 42), a partial recovery (n = 163), or death (n = 17). Comparing patients with and without comorbidities, the incidence of a fatal outcome was higher in those with comorbidities than in those without. Among those with comorbidities, 8 died and among those, without comorbidities, only 5 died. The comparison of the patients published in the second half of 2020 with the patients published in the first half of 2021 showed that the number of publications and thus the number of patients had fallen from 192 to 75 patients in the first half of 2021 (Table 4).

Fig. 1.

flowchart of the selection process upon which papers were included or excluded.

(0.39MB).
Table 1.

Patients with PCG as reported by the end of June 2020.

Age (y)  Sex  Onset  LOO (d)  Subtype  CIC  CM  Therapy  AV  Outcome  Country  Reference 
54  AIDP  nr  No  IG  Yes  Complete  USA  Virani 4/20 
71  AIDP  No  AHT, AAR, LC  IG  Yes  Death  Italy  Alberti 4/20 
46  18  AIDP  nr  nr  No  No  Partial  Iran  Ebrahimzadeh 4/21 
65  10  AIDP  nr  nr  IG  no  Partial  Iran  Ebrahimzadeh 4/21 
61  AIDP  nr  No  IG  No  Complete  China  Zhao 5/20 
61  10  MFS  No  No  No  Complete  Spain  Juliao Caamano 5/20 
76  GBS*  nd  No  No  nr  Death  Spain  Marta-Enguita 5/20 
43  21  AIDP  No  nr  IG  No  Complete  France  Bigaut 5/20 
71  10  AIDP  No  nr  IG  No  Partial  France  Bigaut 5/20 
55  14  AIDP  nr  No  IG  Yes  Partial  Spain  Esteban Molina 5/20 
61  AMAN  No  nr  IG  No  Partial  USA  Valiuddin 5/20 
43  10  AIDP  nr  nr  IG  No  Partial  Spain  Velayos Galan 5/20 
58  AB  AIDP  No  No  IG  No  Partial  Canada  Chan 5/20 
68  13  nr  nr  nr  PE  No  Partial  USA  Chan 5/20 
84  23  nr  nr  nr  PE, IG  Yes  Partial  USA  Chan 5/20 
65  AMSAN  nd  DM  IG  No  nr  Iran  Sedaghat 6/20 
66  AIDP  No  nr  IG  Yes  Complete  Italy  Ottaviani 6/20 
54  21  AIDP  nd  No  IG  No  Complete  Germany  Scheidl 6/20 
70  AMSAN  No  RA  IG  No  Partial  Morocco  El Otmani 6/20 
64  11  AIDP  nd  No  IG  Yes  nr  France  Camdessanche 6/20 
nr  nr  AIDP  No  nr  IG  No  Partial  Italy  Toscano 6/20 
nr  nr  10  AIDP  No  nr  IG  No  Complete  Italy  Toscano 6/20 
nr  nr  10  AMAN  No  nr  IG  Yes  Partial  Italy  Toscano 6/20 
nr  nr  AMAN  No  nr  IG  No  Partial  Italy  Toscano 6/20 
nr  nr  AMAN  No  nr  IG, PE  No  nr  Italy  Toscano 6/20 
54  14  AIDP  Nd  nr  IG  No  Partial  USA  Rana 6/20 
53  nr  AIDP  No  No  PE  No  Partial  Turkey  Oguz-Akarso 6/20 
51  14  MFS  nr  nr  IG  No  Partial  Spain  Reyes-Bueno 6/20 
68  14  AIDP  nr&  nr  IG, PE  Yes  Partial  Austria  Helbok 6/20 
53  24  AIDP  No  No  IG  No  Complete  Netherlands  Kilinc 6/20 
57  AIDP  No  AHT, psoriasis  IG  Yes  Partial  UK  Webb 6/20 
21  16  AIDP  nr  AHT, DM  PE  No  Complete  USA  Hutchins 6/20 
41  10  AIDP  nr  DM  IG  No  Partial  Iran  Farzi 6/20 

A, Onset of GBS after onset of non-neurological manifestations, AAR, Aortic Aneurysm Repair, AHT, Arterial Hypertension; AL, Alcoholism; AV, Artificial Ventilation; B, Onset of GBS before onset of non-neurological manifestations; CA, Carcinoma; CHD, Coronary Heart Disease; CIC, CoV2 in CSF; CM, Comorbidities, COPD, Chronic Obstructive Pulmonary Disease; DM, Diabetes; f, female; GBS*, no NCSs reported; HLP, Hyperlpidemia; IG, Immunoglobulins; LC, Lung Cancer; LOO, Latency between onset of GBS and COVID-19 respectively vice versa; m, male; nd, not done; nr, not reported, NTX, Renal Transplantation; pc, personal communication; PCB, Pharyngeal, Cervical, Brachial variant of GBS; PE, Plasma Exchange; PNC, Polyneuritis Cranialis; RA, Rheumatoid Arthritis; RI, Renal Insufficiency; RSD, Reflex Sympathetic Dystrophy; S, Steroids, & antibodies positive in CSF.

Table 2.

Patients with PCG as reported from July to December 2020.

Age (y)  Sex  Onset  LOO (d)  Subtype  CIC  CM  Therapy  AV  Outcome  Country  Reference 
56  15  AIDP  No  Nr  IG  Yes  Partial  Spain  Sancho-Saldana 7/20 
70  23  AIDP  nd  No  IG  yes  Nr  Italy  Padroni 7/20 
∼75  10  AIDP  No  No  IG  no  Complete  Swiss  Coen 7/20 
64  23  AIDP  No  Nr  IG  No  Complete  France  Arnaud 7/20 
36  MFS  nr  Nr  IG  No  Complete  USA  Lantos 7/20 
55  20  AIDP  No  Nr  IG  Yes  Partial  Italy  Assini 7/20 
60  AMSAN  No  Nr  IG  Yes  Partial  Italy  Assini 7/20 
38  16  AIDP  nr  AHT  PE  No  Complete  Iran  Paybast 7/20 
14  nr  nr  nr  No  IG  No  Complete  Iran  Paybast 7/20 
49  14  AIDP  No  No  IG  No  Complete  UK  Tiet 7/20 
68  AIDP  nr  AHT, HLP  IG  No  Complete  Italy  Agosti 7/20 
11  21  AIDP  nr  No  IG  No  Complete  Saudi  [Khalifa 7/20] 
15  nr  AMAN  No  No  IG  No  Partial  Brazil  Frank 7/20 
72  18  AIDP  No  Nr  IG  Yes  Partial  Italy  Manganotti 7/20 
72  30  AIDP  No  Nr  IG  yes  Partial  Italy  Manganotti 7/20 
49  14  AIDP  No  Nr  IG  No  Partial  Italy  Manganotti 7/20 
94  33  AIDP  nr  Nr  No  Partial  Italy  Manganotti 7/20 
76  22  AIDP  No  Nr  IG  Yes  Partial  Italy  Manganotti 7/20 
64  nr  nr  nr  DM  IG  Yes  Complete  Japan  Wada 7/20 
77  nr  AIDP  nr  AHT, HLP  IG  no  Complete  Spain  Garcia-Manzanedo 7/20 
75  nr  nr  No  Spinal trauma  IG  no  Complete  USA  Elkhouly 7/20 
37  nr  10  nr  nr  Nr  nr  nr  nr  Belgium  Guilmot 7/20 
51  12  AIDP  No  Nr  IG  Yes  Partial  Germany  Pfefferkorn 7/20 
65  AIDP  nr  No  IG  No  Complete  Germany  Lampe 7/20 
12  nr  nr  No  IG  Yes  Death  Tanzania  Manji 7/20 
66  30  AIDP  nr  DM, AHT, arthritis  IG  No  Partial  Iran  Mozhadehipanah 7/20 
55  31  AMSAN  nr  COPD  IG  Yes  Death  Iran  Mozhadehipanah 7/20 
70  15  AMAN  nr  Nr  IG  No  Partial  Spain  Guijarro-Castro 7/20 
34  PNC  nr  Strabism  IG  No  Partial  USA  Dinkin 8/20 
71  Days  PNC  nr  AHT  no  No  Partial  USA  Dinkin 8/20 
58  AIDP  No  Nr  PE  No  Complete  USA  Naddaf 8/20 
56  AIDP  No  AHT, thyroxin ↓  nr  nr  Partial  Germany  Pelea 8/20 
61  AMAN  No  AHT, DM, HLP, CA  S, PE  No  Complete  USA  Maideniuc 8/20 
50  MFS, PNC  No  No  IG  No  Complete  Spain  Guttierez-Ortiz 8/20 
39  MFS, PNC  No  No  No  No  Complete  Spain  Guttierez-Ortiz 8/20 
72  AIDP  No  AHT, CHD, AL  IG  Yes  Partial  USA  Su 8/20 
41  10  AIDP  No  Nr  IG  No  Complete  Guinea  Atakla 8/20 
70  90  nr  nr  RSD  IG  No  Complete  USA  Defabio 8/20 
57  17  AIDP  nr  Nr  IG  no  Partial  Italy  Zito 8/20 
63  MFS  nr  Nr  no  No  Partial  UK  Ray 8/20 
65  AIDP  nr  DM, AHT  IG  Yes  Death  Sudan  Sidig 8/20 
62  12  nr  nr  COPD, sleep apnea  IG  Yes  Partial  UK  Jones 8/20 
∼65  17  AIDP  No  No  IG  No  Complete  Italy  Riva 9/20 
52  15  AIDP  No  Nr  IG  No  Partial  Swiss  Lascano 9/20 
63  AIDP  nr  nr  IG  No  Complete  Swiss  Lascano 9/20 
61  22  AIDP  No  nr  IG  No  Partial  Swiss  Lascano 9/20 
74  nr  AIDP  No  Lymphoma  IG  No  Complete  Spain  Fernandez-Doming 9/20 
∅53  11m  0.5‒28  AIDP  No, n = 4  nr  IG, n = 15  nr  Partial,  Italy, n = 17  Foresti 9/20 
              PE, n = 2    Death, n = 1     
58  14  nr  nr  disk prolapse  IG  No  Partial  USA  Korem 9/20 
∼35  nr  AMAN  No  nr  IG  No  Partial  UK  Ameer 9/20 
49  11  PCB  No  AHT, seminoma  no  No  Partial  Italy  Liberatore 9/20 
70  15  AMAN  nr  AHT, obesity  IG, PE  No  Partial  Italy  Masuccio 9/20 
48  18  AIDP  nr  DM  PE  No  Partial  USA  Granger 9/20 
55  10  AMAN  nr  CM, AHT  IG  No  Partial  India  Nanda 9/20 
72  AIDP  nr  AHT  IG  Yes  Death  India  Nanda 9/20 
55  AMSAN  nr  AHT, DM, dialysis  IG  No  Partial  India  Nanda 9/20 
49  AIDP  nr  AHT  IG  No  Partial  India  Nanda 9/20 
67  10  nr  No  Breast cancer  PE  Yes  Partial  USA  Abrams 10/20 
76  AIDP  No  Cardiomyopathy  IG  No  Partial  France  Tard 10/20 
44  nr  nr  nr  AHT, asthma  IG  No  Complete  USA  Khaja 10/20 
54  20  AMAN  nr  Asthma  No  No  Partial  Japan  Hirayama 10/20 
55  11  AMSAN  nr  Lung disease  IG  Yes  Death  Iran  Agha Abbaslou 10/20 
nr  AIDP  No  No  IG  Yes  Partial  USA  Curtis 10/20 
54  AB  nr  No  AHT  IG  No  Partial  Spain  Redondo-Urda 10/20 
54  AIDP  nr  AHT, obesity  IG  Yes  Partial  Spain  Diaz-Porras 10/20 
20‒63  7m  nr  nr  AIDP  nr  nr  IG  No  Partial  UK, n = 7  Paterson 10/20 
59  20  nr  nr  Renal transplant  IG  Yes  Partial  Pakistan  Yaqoob 10/20 
49  14  MFS  No  Crohn's disease  IG  Yes  Partial  USA  Lowery 11/20 
65  nr  AIDP  nr  Fibromyalgia  IG  Yes  Death  Italy  Ferraris 11/20 
88  AMSAN  nr  nr  PE  Yes  Partial  Iran  Abolmaali 11/20 
47  AMSAN  nr  nr  PE  Yes  Death  Iran  Abolmaali 11/20 
58  AMSAN  nr  nr  IG, PE  Yes  Death  Iran  Abolmaali 11/20 
54  nr  nr  GBS, DM  IG  No  Complete  USA  McDonnell 11/20 
37  14  AIDP  nr  nr  IG  Yes  Partial  Iran  Boostani 11/20 
65  nr  AIDP  nr  nr  IG  No  Partial  Italy  Garnero 11/20 
73  AB  AIDP  No  nr  IG  No  Partial  Italy  Garnero 11/20 
55  20  AIDP/ MFS  No  nr  IG  No  Partial  Italy  Garnero 11/20 
46  AIDP  No  nr  IG  No  Partial  Italy  Garnero 11/20 
60  20  AMSAN  No  nr  IG  No  Partial  Italy  Garnero 11/20 
63  15  AMSAN  nr  nr  IG  No  Partial  Italy  Garnero 11/20 
66  No symptom  AIDP  nr  nr  IG  No  Partial  Italy  Bracaglia 11/20 
54  nr  nr  nr  nr  No  AHT, HLP  IG  Yes  Complete  Spain  Barrachina-Esteve 11/20 
61  nr  MFS  No  nr  IG  No  Complete  Germany  Senel 11/20 
58  nr  AIDP  nr  nr  IG  Yes  Partial  UK  Gale 11/20 
∅ 59.2  22m  16‒35  AIDP, n = 23  nr  nr  IG, n = 25  n = 5  Partial  UK, n = 30  Filosto 11/20 
        AMAN, n = 2      PE, n = 2  n = 25       
65  AIDP  nr  nr  IG  No  nr  India  Kushwaha 11/20 
60  22  nr  nr  Migraine  IG  No  Partial  USA  Bueso 12/20 
∅57  33m  nr  0‒37  nr  nr  nr  IG, n = 46  nr  Death, n = 1  UK, n = 47  Keddie 12/20 
              PE, n = 1    nr, n = 46     
57  nr  AMAN  nr  nr  IG  No  nr  Italy  Petrelli 12/20 
53  nr  nr  nr  nr  IG  No  Partial  Italy  Gigli 12/20 
36  18  AIDP  nr  AHT, NTX  IG  Yes  Partial  USA  Rajdev 12/20 
72  AIDP  No  nr  IG  Yes  Partial  Italy  Civardi 12/20 
20  AMAN  nd  No  IG  No  Complete  India  Ghosh 12/20 
64  21  VII palsy  nr  nr  no  No  Partial  USA  Judge 12/20 
75  nr  AIDP  nr  nr  IG  Yes  Partial  India  Chakraborty 12/20 

A, Onset of GBS after onset of non-neurological manifestations; AAR, Aortic Aneurysm Repair; AHT, arterial hypertension; AL, Alcoholism; AV, Artificial Ventilation; B, Onset of GBS before onset of non-neurological manifestations; CA, Carcinoma; CHD, Coronary Heart Disease; CIC, CoV2 in CSF; CM, Comorbidities; COPD, Chronic Obstructive Pulmonary Disease; DM, Diabetes; f, female; GBS*, No NCSs reported; HLP, Hyperlpidemia; IG, Immunoglobulins; LC, Lung Cancer; LOO, Latency between Onset of GBS and COVID-19 respectively vice versa; m, male; nd, not done; nr, not reported, NTX, Renal Transplantation; pc, personal communication; PCB, Pharyngeal, Cervical, Brachial variant of GBS; PE, Plasma Exchange; PNC, Polyneuritis Cranialis; RA, Rheumatoid Arthritis; RI, Renal Insufficiency; RSD, Reflex Sympathetic Dystrophy; S, Steroids, & antibodies positive in CSF.

Table 3.

Patients with PCG reported from 1.1.2021 to 30.6.2021.

Age (y)  Sex  Onset  LOO (d)  Subtype  CIC  CM  Therapy  AV  Outcome  Country  Reference 
72  12  nr  nr  No  IG  No  Partial  Morocco  Mansour 1/21 
36  42  AIDP  no  Pregnant  IG  No  Complete  Morocco  Aasfara 1/21 
62  20  AIDP  nr  AHT, obesity  IG  Yes  Partial  Italy  Colonna 1/21 
46  53  AIDP  nr  No  IG  No  Partial  UK  Raahimi 1/21 
55  nr  nr  nr  AHT  IG, S  nr  Death  India  Goel 2/21 
17  nr  nr  nr  No  IG, S  nr  Death  India  Goel 2/21 
35  16  nr  nr  nr  IG  No  Complete  USA  Yakoby 3/21 
36  18  nr  nr  Obesity  IG  No  Partial  USA  Dufour 3/21 
39  14  AIDP  nr  DM, AHT  PE  No  Partial  Colombia  Mackenzie 3/21 
53  AMSAN  nr  DM  PE, IG  Yes  Partial  USA  Brown 3/21 
45  nr  AMAN  nr  Hypothyroid  IG  No  Partial  nr  Singh 3/21 
53‒65 (15)  13m  ∅12  AIDP  nr  nr  IG  Yes (2)  Partial (14)  France, n = 15  Meppiel 3/21 
61  21  AIDP  No  nr  IG  Yes  Partial  Italy  Avenali 3/21 
72  AIDP  No  nr  IG, PE  No  Partial  Italy  Avenali 3/21 
57  12  AMSAN  No  nr  IG  No  Partial  Italy  Avenali 3/21 
35‒81  17m  ∅ 28.5  AIDP  nr  AHT, DM, n = 3  nr  nr  nr  Italy, n = 24  Uncini 3/21 
28  AMAN  No  no  IG  No  Partial  Chile  Sandoval 3/21 
71  AIDP  nr  AHT, hypothyroid  IG  Yes  Partial  Belgium  Paradis 4/21 
52  nr  AIDP  nr  nr  IG  Yes  Partial  Swiss  Epiney 4/21 
70  nr  AMAN  nr  Sleep apnea  nr  Yes  Partial  Swiss  Epiney 4/21 
34  AMSAN  No  No  IG  No  Partial  Turkey  Tekin 4/21 
70  nr  nr  nr  nr  nr  IG  Yes  Death  Iran  Nejad 5/21 
22  AIDP  nr  Pregnant  IG  No  Partial  Philippines  Garcia 5/21 
nr  AMAN  nr  No  IG  Yes  Partial  India  Das 5/21 
27  AMAN  No  nr  IG  No  Complete  India  Khan 6/21 
35  AIDP  No  No  supportive  No  Complete  India  Khan 6/21 
40  20  AIDP  No  nr  IG  Yes  Death  India  Khan 6/21 
48  AIDP  No  Pericarditis  IG  No  Complete  India  Khan 6/21 
50  AMSAN  Yes  nr  IG  No  Complete  India  Khan 6/21 
29  AIDP  nr  Pregnant  IG  No  Complete  Iran  Mehrpour 6/21 
62  nr  nr  AMSAN  No  nr  IG, PE  No  Partial  Italy  d'Orsi 6/21 
70  15  AMAN  nr  COPD, CHD,  IG, PE  Yes  Death  Turkey  Koca 6/21 
34  10  AIDP  nr  nr  PE, IG  Yes  Partial  Egypt  Khedr 6/21 
65  AIDP  nr  Cerebellar bleeding  PE  No  Partial  Egypt  Khedr 6/21 
49  AMAN  nr  nr  PE, IG  No  Partial  Egypt  Khedr 6/21 
45  14  AIDP  nr  nr  No  Partial  Egypt  Khedr 6/21 
55  14  AMAN  nr  nr  IG  No  Partial  Egypt  Khedr 6/21 
11  nr  AMAN  nr  No  IG, S, PE  Yes  Partial  India  Khera 6/21 

A, Onset of GBS after onset of non-neurological manifestations; AAR, Aortic Aneurysm Repair; AHT, Arterial Hypertension; AL, Alcoholism; AV, Artificial Ventilation; B, Onset of GBS before onset of non-neurological manifestations; CA, Carcinoma; CHD, Coronary Heart Disease; CIC, CoV2 in CSF; CM, Comorbidities; COPD, Chronic Obstructive Pulmonary Disease; DM, Diabetes, f, female; GBS*, No NCSs reported; HLP, Hyperlipidemia; IG, Immunoglobulins; LC, Lung Cancer; LOO, Latency between onset of GBS and COVID-19 respectively vice versa; m, male; nd, not done; nr, not reported; NTX, Renal Transplantation; pc, personal communication; PCB, Pharyngeal, Cervical, Brachial variant of GBS; PE, Plasma Exchange; PNC, Polyneuritis Cranialis; RA, Rheumatoid Arthritis; RI, Renal Insufficiency; RSD, Reflex Sympathetic Dystrophy, S, Steroids, & antibodies positive in CSF.

Table 4.

Comparison of PCG patients between first and second half of 2020 and the first half of 2021.

  1st half 2020  2nd half 2020  1st half 2021  Total 
Number of publications  25  74  25  124 
Number of patients (n)  33  192  75  300 
Age (years)  21‒84 (28/33)  8‒94 (192/192)  7‒81 (75/75)  7‒94 
Sex         
18  133  50  201 
10  57  25  92 
Nr 
A/B         
After  30  131  72  233 
Before 
Together with 
Nr  55  57 
Latency (days)  −9 to 24  −10 to 90  1‒42  −10 to 90 
Subtypes         
AIDP  22  94  55  171 
AMAN  11  24 
AMSAN  16 
MFS 
PNC/MNC 
PCB 
Nr  68  77 
CSF SARS-CoV-2         
Negative  16  41  11  68 
Positive 
Nr  17  151  63  231 
Comorbiditiesa  33  11  49 
Treatment         
IG  27  168  46  241 
PE  14  28 
None 
Nr  25  30 
Mechanical ventilation         
Yes  36  14  59 
No  23  66  35  124 
Nr  90  26  117 
Outcome         
Complete recovery  26  42 
Partial recovery  19  106  38  163 
Death  10  17 
Nr  50  25  78 
Comorbidity + death 
No comorbidity + death 

MNC, Mononeuritis Cranialis; Nr, Not reported.

a

Only cardiovascular, pulmonary, cerebral disease, and malignancies were encountered.

Discussion

The review shows that PCG can be a complication of COVID-19 and suggests that SARS-CoV-2 vaccinations reduce the prevalence of PCG. Whether the prevalence of PCG has really increased since the outbreak of the pandemic is still a matter of debate. Some studies report an increase in the prevalence, others a decrease.12,13 There are also studies that report no change in GBS prevalence since the outbreak of the pandemic.14

Because CSF is devoid of viral RNA in almost all cases and because cytokines are elevated in the CSF in PCG patients,15 an abnormal immune response rather than an infectious cause is the most likely pathophysiology underlying the development of PCG. Because PCG recovery is incomplete at discharge in most cases, PCG has to be classified as a serious complication of COVID-19.

The surprising finding that the number of reported PCG patients was lower in the first half of 2021 compared to the second half of 2020 can be asserted by several explanations. First, scientists are no longer interested in the topic as evidence accumulates that PCG is an established complication of COVID-19. The interest in publishing established facts is therefore understandably low. Second, editors are no longer interested in publishing case reports or case series for the same reason. Third, COVID-19 patients were more severely ill than before in the first half of 2021 and therefore died prematurely before they could develop GBS. However, there is no evidence to support this speculation. In most registries, mortality from COVID-19 did not increase with the occurrence of more virulent variants of the virus. Fourth, the prevalence of PCG is actually declining either due to improved strategies to treat COVID-19 or due to the effect of vaccination. Since COVID-19 treatment has not changed and has not become more causal and effective than months before, the former speculations are rather unlikely. So if the prevalence of PCG has really decreased, a positive effect of vaccinations is conceivable.

In general, SARS-CoV-2 vaccinations not only have advantages but are sometimes accompanied by side effects, such as GBS.16 Whether the prevalence of GBS as a side effect of SARS-CoV-2 vaccinations is higher compared to other vaccinations or whether PSG resulted in an overall increase in GBS prevalence is a matter of controversy. In a recent population-based historical rate comparison study and self-controlled case series analysis, only 11 PSG cases were observed after the first Astra Zeneca Vaccination (AZV) dose and only 5 PSG cases after the second dose.17 Fewer than 5 PCG cases were reported among those who received the BioNtech Pfizer Vaccine (BPV) and no PCG cases among those who received the Johnson & Johnson Vaccine (JJV).17 In a recent analysis of the US Vaccine Adverse Reporting System (VAERS) fewer than 1 PCG case per 1000,000 vaccine doses were reported within 42 days of vaccination in a period from January 2021 to 14th June 2021.18 In this study neurological side effects were observed more frequently after use of the JJV than after the use of the BPV or the Moderna vaccine.18 In a recent systematic review and meta-analysis of 48 publications reporting 2110,441,600 participants, the pooled incidence of PCG was 3.09 per 1 million people within six weeks of vaccination, which corresponds to 2.47 cases per 100,000 person year.19,20 The pooled incidence was higher as compared to patients who received the influenza vaccine.19

Regarding the treatment of PCG, it is not at a variance of that applied in patients with non-SARS-CoV-2 associated GBS. However, it is currently unknown whether the therapy is just as effective as in non-SARS-CoV-2 associated GBS. Recently, an emerging new treatment strategy for GBS has been proposed that may affect the prevalence of PCG (“zipper strategy”).17 The approach is based on the combination of IVIG alternating with PE.17 The therapy is based on the idea that PE eliminates the autoantibodies and cytokines and administering IVIG immediately after PE neutralizes those antibodies that are newly formed or transited from tissue. The subsequent PE session eliminates the antibodies away.17 This new approach can improve the outcome of PCG patients. Since PCG strongly influences the outcome of SARS-CoV-2 infections and since the outcome of PCG is worse among those with than without comorbidities, PCG needs to be recognized early and comorbidities sufficiently treated to improve the overall outcome of COVID-19 patients.

Limitations

A limitation of the study is that publication dates do not necessarily reflect the dates when patients were diagnosed and treated. A further limitation is the design. A prospective, multicentre design is more appropriate than a retrospective design to assess a putative vaccination effect. Among the 7 patients in whom GBS seemingly preceded the viral infection, symptoms of the infection were either not adequately acknowledged or the infection initially remained asymptomatic.

Future directions

Future studies should focus on the question if SARS-CoV-2 vaccinations really reduce the frequency of SARS-CoV-2 infection-associated complications. More generally, they should assess if vaccinations improve the outcome of COVID-19 and reduce the rate of long-COVID, the frequency, and duration of hospitalizations, including the Intensive Care Unit (ICU), and if they reduce mortality.

Conclusions

The present study enriches the current literature as it shows that the prevalence of PCG appears to have decreased since the introduction of SARS-CoV-2 vaccines. To assess if SARS-CoV-2 vaccinations really reduce the prevalence of PCG, prospective, multicentre studies are urgently needed. If such studies confirm the results of the index study, vaccinations should be advocated and encouraged provided they are safe for everyone.

Declarations

Ethics approval and consent to participate: not applicable

Consent for publication: not applicable

Availability of data and material: all data reported are available from the corresponding author

Funding: none received

References
[1]
J. Finsterer, F.A. Scorza.
Guillain-Barre syndrome in 220 patients with COVID-19.
Egypt J Neurol Psychiatr Neurosurg, 57 (2021), pp. 55
[2]
M. Aladawi, M. Elfil, B. Abu-Esheh, D. Abu Jazar, A. Armouti, A. Bayoumi, et al.
Guillain Barre syndrome as a complication of COVID-19: a systematic review.
Can J Neurol Sci, 49 (2022), pp. 38-48
[3]
X. Li, Y. Wang, H. Wang, Y. Wang.
SARS-CoV-2-associated Guillain-Barré syndrome is a para-infectious disease.
QJM, 114 (2021), pp. 625-635
[4]
P. Zuberbühler, M.E. Conti, L. León-Cejas, F. Maximiliano-González, P. Bonardo, A. Miquelini, et al.
Guillain-Barre syndrome associated to COVID-19 infection: a review of published case reports.
Rev Neurol, 72 (2021), pp. 203-212
[5]
J. Finsterer, F.A. Scorza, A.C. Fiorini.
SARS-CoV-2-associated Guillain-Barre syndrome in 62 patients.
Eur J Neurol, 28 (2021), pp. e10-e12
[6]
P. Sansone, L.G. Giaccari, C. Aurilio, F. Coppolino, V. Esposito, M. Fiore, et al.
Post-infectious Guillain-Barré syndrome related to SARS-CoV-2 infection: a systematic review.
Life (Basel), 11 (2021), pp. 167
[7]
S. Sriwastava, S. Kataria, M. Tandon, J. Patel, R. Patel, A. Jowkar, et al.
Guillain Barré Syndrome and its variants as a manifestation of COVID-19: a systematic review of case reports and case series.
J Neurol Sci, 420 (2021),
[8]
M.M. Kajumba, B.J. Kolls, D.C. Koltai, M. Kaddumukasa, M. Kaddumukasa, D.T. Laskowitz.
COVID-19-associated Guillain-Barre syndrome: atypical para-infectious profile, symptom overlap, and increased risk of severe neurological complications.
SN Compr Clin Med, 2 (2020), pp. 2702-2714
[9]
I. Hasan, K.M. Saif-Ur-Rahman, S. Hayat, N. Papri, I. Jahan, R. Azam, et al.
Guillain-Barré syndrome associated with SARS-CoV-2 infection: a systematic review and individual participant data meta-analysis.
J Peripher Nerv Syst, 25 (2020), pp. 335-343
[10]
H. Zhao, D. Shen, H. Zhou, J. Liu, S. Chen.
Guillain-Barré syndrome associated with SARS-CoV-2 infection: causality or coincidence?.
Lancet Neurol, 19 (2020), pp. 383-384
[11]
P. Borah, P.K. Deb, B. Chandrasekaran, M. Goyal, M. Bansal, S. Hussain, et al.
Neurological consequences of SARS-CoV-2 infection and concurrence of treatment-induced neuropsychiatric adverse events in COVID-19 patients: navigating the uncharted.
Front Mol Biosci, 8 (2021),
[12]
T. Umapathi, B. Er, J.S. Koh, Y.H. Goh, L. Chua.
Guillain-Barré syndrome decreases in Singapore during the COVID-19 pandemic.
J Peripher Nerv Syst, 26 (2021), pp. 235-236
[13]
S. Keddie, J. Pakpoor, C. Mousele, M. Pipis, P.M. Machado, M. Foster, et al.
Epidemiological and cohort study finds no association between COVID-19 and Guillain-Barré syndrome.
Brain, 144 (2021), pp. 682-693
[14]
M. Fragiel, Ò. Miró, P. Llorens, S. Jiménez, P. Piñera, G. Burillo, et al.
Spanish Investigators on Emergency Situations TeAm (SIESTA) network. Incidence, clinical characteristics, risk factors and outcomes of Guillain-Barré in COVID-19.
Ann Neurol, 89 (2021), pp. 598-603
[15]
G.L. Gigli, A. Vogrig, A. Nilo, M. Fabris, A. Biasotto, F. Curcio, et al.
HLA and immunological features of SARS-CoV-2-induced Guillain-Barré syndrome.
Neurol Sci, 41 (2020), pp. 3391-3394
[16]
J. Finsterer, F.A. Scorza, C.A. Scorza.
Post SARS-CoV-2 vaccination Guillain-Barre syndrome in 19 patients.
Clinics (Sao Paulo), 76 (2021), pp. e3286
[17]
X. Li, B. Raventós, E. Roel, A. Pistillo, E. Martinez-Hernandez, A. Delmestri, et al.
Association between covid-19 vaccination, SARS-CoV-2 infection, and risk of immune mediated neurological events: population based cohort and self-controlled case series analysis.
BMJ, 376 (2022),
[18]
J.A. Frontera, A.A. Tamborska, M.F. Doheim, D. Garcia-Azorin, H. Gezegen, A. Guekht, et al.
contributors from the Global COVID-19 Neuro Research Coalition. Neurological events reported after COVID-19 vaccines: an analysis of VAERS.
[19]
F. Wang, D. Wang, Y. Wang, C. Li, Y. Zheng, Z. Guo, et al.
Population-based incidence of guillain-barré syndrome during mass immunization with viral vaccines: a pooled analysis.
Front Immunol, 13 (2022),
[20]
O. Saritas Nakip, S. Kesici, B. Bayrakci.
Zipper method is the emerging treatment option for severe Guillain-Barre syndrome related COVID-19.
Autoimmun Rev, 20 (2021),
Descargar PDF
Opciones de artículo
es en pt

¿Es usted profesional sanitario apto para prescribir o dispensar medicamentos?

Are you a health professional able to prescribe or dispense drugs?

Você é um profissional de saúde habilitado a prescrever ou dispensar medicamentos