Guillain-Barré syndrome has a diverse clinical phenotype related to geographical origin. To date, the majority of large-scale studies on Guillain-Barré syndrome (GBS) have been conducted in developed countries. We aimed to evaluate the key diagnostic features and assess the suitability of the Brighton criteria in 344 adult GBS patients from Bangladesh. All patients fulfilled the National Institute of Neurological Diseases and Stroke (NINDS) diagnostic criteria. Standardized data on demographic characteristics and clinical features, cerebrospinal fluid (CSF) analysis, and nerve conduction study (NCS) results were elaborated to measure the sensitivity of Brighton criteria. Most patients (88%) were admitted to hospital after the nadir weakness. Symmetrical weakness and reduced reflexes were found in 98% of patients. CSF albuminocytologic dissociation was detected in 238/269 (89%) cases and abnormal nerve physiology in 258/259 (>99%) cases. Only 27 (8%) patients received either intravenous immunoglobulin (IVIg) or plasmapheresis. In total, 200 (58%) patients met level 1 of the Brighton criteria; 97 (28%) patients met level 2; 42 (12%) patients met level 3; and 5 (2%) patients met level 4. This analysis showed that despite the heterogeneity of GBS in Bangladesh, the Brighton criteria showed a high sensitivity in the diagnosis of GBS.
Although Guillain-Barré syndrome (GBS) has higher incidence and poor outcome in Bangladesh, mortality from GBS in Bangladesh has never been explored before. We sought to explore the frequency, timing, and risk factors for deaths from GBS in Bangladesh. We conducted a prospective study on 407 GBS patients who were admitted to Dhaka Medical College Hospital, Dhaka, Bangladesh from 2010 to 2013. We compared deceased and alive patients to identify risk factors. Cox regression model was used to adjust for confounders. Of the 407 GBS patients, 50 (12%) died, with the median time interval between the onset of weakness and death of 18 days. Among the fatal cases, 24 (48%) were ≥40 years, 36 (72%) had a Medical Research Council sum score ≤20 at entry, 33 (66%) had a progressive phase <8 days, and 27 (54%) required ventilation support. Ten patients (20%) died due to unavailability of ventilator. The strongest risk factor for deaths was lack of ventilator support when it was required (HR: 11.9; 95% confidence interval [CI]: 4.6-30.7). Other risk factors for death included age ≥40 years (HR: 5.9; 95% CI: 2.1-16.7), mechanical ventilation (HR: 2.3; 95% CI: 1.02-5.2), longer progressive phase (>8 days) (HR: 2.06; 95% CI: 1.1-3.8), autonomic dysfunction (HR: 1.9; 95% CI: 1.05-3.6), and bulbar nerve involvement (HR: 5.4; 95% CI: 1.5-19.2). In Bangladesh, GBS is associated with higher mortality rates, which is related to lack of ventilator support, disease severity, longer progressive phase of the disease, autonomic dysfunction, and involvement of the bulbar nerves.
Objective:To characterize the patterns of autoantibodies to glycolipid complexes in a large cohort of Guillain-Barré syndrome (GBS) and control samples collected in Bangladesh using a newly developed microarray technique.Methods:Twelve commonly studied glycolipids and lipids, plus their 66 possible heteromeric complexes, totaling 78 antigens, were applied to polyvinylidene fluoride–coated slides using a microarray printer. Arrays were probed with 266 GBS and 579 control sera (2 μL per serum, diluted 1/50) and bound immunoglobulin G detected with secondary antibody. Scanned arrays were subjected to statistical analyses.Results:Measuring antibodies to single targets was 9% less sensitive than to heteromeric complex targets (49.2% vs 58.3%) without significantly affecting specificity (83.9%–85.0%). The optimal screening protocol for GBS sera comprised a panel of 10 glycolipids (4 single glycolipids GM1, GA1, GD1a, GQ1b, and their 6 heteromeric complexes), resulting in an overall assay sensitivity of 64.3% and specificity of 77.1%. Notable heteromeric targets were GM1:GD1a, GM1:GQ1b, and GA1:GD1a, in which exclusive binding to the complex was observed.Conclusions:Rationalizing the screening protocol to capture the enormous diversity of glycolipid complexes can be achieved by miniaturizing the screening platform to a microarray platform, and applying simple bioinformatics to determine optimal sensitivity and specificity of the targets. Glycolipid complexes are an important category of glycolipid antigens in autoimmune neuropathy cases that require specific analytical and bioinformatics methods for optimal detection.
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