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Guillain Barre Syndrome

Guillain Barre Syndrome. What is Guillain Barre Syndrome?. Acute immune-mediated polyneuropathy Presentation: like an acute onset polyneuropathy Weakness beginning distally and proceeding proximally Paresthesias : numbness, tingling, pain Areflexia (occasional hyporeflexia )

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Guillain Barre Syndrome

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  1. Guillain Barre Syndrome

  2. What is Guillain Barre Syndrome? • Acute immune-mediated polyneuropathy • Presentation: like an acute onset polyneuropathy • Weakness beginning distally and proceeding proximally • Paresthesias: numbness, tingling, pain • Areflexia (occasional hyporeflexia) • Additionally: “cytoalbuminolgic disassociation” in CSF

  3. Localize the lesion • Before we discuss the diagnosis and treatment of GBS, first you have to suspect the diagnosis • How does GBS present? • As an acute onset polyneuropathy • Weakness beginning distally and proceeding proximally • Paresthesias: numbness, tingling, pain • Areflexia (occasional hyporeflexia)

  4. Case studyWhere is the lesion? Brain Brainstem Cerebellum Spinal Cord ________________ Anterior Horn Peripheral Nerve NMJ Muscle UMN LMN

  5. Diagnosing GuillainBarre Syndrome Localize the Lesion • 7 year old boy with weakness and numbness • 11 year old boy with weakness and numbness • 8 year old girl with weakness and numbness • 9 year old boy with weakness

  6. 7 year old boy with weakness and numbness • Lower back pain • Brisk reflexes in the lower extremities • incontinence

  7. 11 year old boy with weakness and numbness • Weakness of right arm and leg • Left sided numbness • “funny feeling” left arm and leg and left thorax up to nipple • Incontinent once after feeling of urgency

  8. 7 year old with weakness • Trouble getting up from the floor • Muscle cramps in legs • No sensory changes

  9. 8 year old girl with weakness and numbness • She started with tripping frequently • Initially with just weakness of both feet; now with weakness of both hands • Numbness and tingling of hands and feet • Shooting pains down back of legs • Areflexic

  10. Differential Diagnosis of GuillainBarre Syndrome • If no sensory involvement, think of other areas of nervous system • Anterior horn: polio • NMJ: myasthenia gravis, botulism • Muscle: myopathy, electrolyte dysfunction (hypokalemia) • If urinary retention, think spinal cord • If brisk reflexes, think CNS, esp spinal cord (or brainstem)

  11. Differential Diagnosis of Acute Peripheral Neuropathy • Infectious • Lyme • HIV • Diptheria • Syphilis • Leprosy • Tic paralysis • Neoplastic • Paraneoplastic • lymphoma • Metabolic • Vitamin Deficiency: B1, B6, B12 • Diabetes • Hypothyroid • Liver disease • Ends stage renal disease • Porphyria • Toxic • Heavy metal • Drugs • Numerous drugs • Autoimmune • GuillainBarre Syndrome • Vasculitis

  12. GuillainBarre SyndromeClinical Presentation • Progressive bilateral and symmetrical weakness • “Ascending paralysis” • Progresses over 12 hours to 28 days. • May involve respiratory muscles • Numbness, paresthesias, pain in the limbs • Areflexia (may be hyporeflexia) • Autonomic dysfunction occurs in approximately one-half of children with GBS • A variety of cardiac dysrhythmias • Orthostatic hypotension • Hypertension • Paralytic ileus • Bladder dysfunction • Abnormal sweating

  13. Guillain Barre Syndrome • Acute immune-mediated polyneuropathy • The most common cause of acute flaccid paralysis in healthy infants and children • Annual incidence of 0.6 to 2.4 cases per 100,000 population • Occurs at all ages and in both sexes (male 1.5 times greater than female) • GBS is really a group of disorders rather than a single disease • Demyelinating form • Axonal form (less common in the US) • Diagnosis • “ascending paralysis” • areflexia • “cytoalbuminolgic disassociation” in CSF

  14. Etiology of Guillain Barre Syndrome • Two thirds of cases have preceding URI or diarrhea • Campylobacter jejuni identified in 30% • CMV identified in 10% • Also identified: Epstein-Barr virus, Haemophilus influenzae  mycoplasma pneumoniae, the enteroviruses, hepatitis A and B, herpes simplex, and Chlamydophila (formerly Chlamydia) pneumoniae • Post vaccine: other than the 1976 swine flu vaccine, no clear linkage seen in other vaccines

  15. Etiology of Guillain Barre Syndrome • Acute immune-mediatedpolyneuropathy • Antiganglioside antibodies develop • Some evidence supports the presence of molecular mimicry between gangliosides and antecedent infectious agents • Gangliosides are a component of peripheral nerves • Different autoantibodies are associated with different forms of GBS • IgGautoantibodies to GM1 and GD1a associated with acute motor axonal neuropathy • IgGautoantibodies to GQ1b associated with Miller Fisher sindrome

  16. Diagnosis of GBS • Clinical triad of ascending paralysis, areflexia and cytoalbuminologic association • CSF • elevated protein concentration (> 45 mg/dL) • Maximum protein values may not be seen for four to five weeks • A normal opening pressure • fewer than 10 cells (typically mononuclear) • An initial pleocytosis of less than 100 lymphocytes may occur • If this is noted, consider other diseases associated with GBS such as HIV infection, Lyme disease, and malignancy • These findings may be delayed and a repeat lumbar puncture may be required. •  Electrophysiologic studies • the most specific and sensitive tests for diagnosis of the disease. • Evidence of conduction block usually is the earliest abnormality • Electromyogram abnormalities typically are delayed for two to three weeks

  17. VARIANTS OF GUILLAIN-BARRÉ SYNDROME • Acute inflammatory demyelinatingpolyneuropathy (AIDP) • the prototype of GBS • most common form in North America, Europe; accounts for about 85 to 90 percent of cases there • Acute motor axonal neuropathy  • pure motor form of GBS • electrophysiologic pattern suggesting axonal (rather than demyelinating) damage. • occurs mainly in northern China, but is also a common form of GBS in Japan, Mexico, and South America • The presenting clinical features and recovery are similar to those of AIDP. • Tends to be worse prognosis thant AIDP • Miller Fisher syndrome • external ophthalmoplegia, ataxia, and muscle weakness with areflexia • CSF and electrophysiologic features are similar to those in AIDP. • Brainstem auditory evoked potentials demonstrate peripheral and central conduction defects • More common in Eastern Asia • Preceding infection commmon; 20% C. jejuni, 8% H.flu

  18. Clinical Course of Guillain Barre • More than 90 percent of patients reach the nadir of their function within two to four weeks • Return of function occurring slowly over the course of weeks to months • The clinical course of GBS in children is shorter than in adults and recovery is more complete • The severity of GBS in children does not correlate with long-term outcome. • 85 percent of children can be expected to have an excellent recovery • Approximately one-half of patients are ambulatory by six months, and 70 percent walk within a year after onset. • Mortality is 3 to 4 percent, and usually is secondary to respiratory failure or cardiac complications.

  19. Treatment of GBS • Supportive Care • IVIG • Plasmapheresis

  20. Treatment of GBS • Supportive Care • close monitoring of motor, autonomic (blood pressure, heart rate and sphincter function), and respiratory function • serial lung function testing should be performed in those at highest risk for developing respiratory failure. • The following parameters warn of impending respiratory arrest and are an indication for intubation [4]: • Vital capacity ≤20 mL/kg • Maximum inspiratory pressure ≤30 cmH2O • Maximum expiratory pressure ≤40 cmH2O • Tidal volume <5 mL/kg

  21. Treatment of GBS in children • Intravenous Immune Globulin (IVIG) • no large randomized controlled trials exist in children. Nevertheless, data from the few available trials in children suggest that IVIG shortens the time to recovery compared with supportive care alone • strength generally begins to improve in most children within 14 days after initiation of IVIG therapy and most are walking within three months • The total dose of IVIG for the treatment of GBS in children is 2 g/kg, given as 1 g/kg for two days or 400 mg/kg for five days.

  22. Treatment of GBS in children • Plasma Exchange • Large, multicenter trials have established the effectiveness of plasma exchange in adult patients with severe GBS. • Treatment in pediatric patients appear to be similar to those in adults • A meta-analysis of six trials found that treatment of children with plasma exchange was superior to supportive care. The number of children was small and all children were older than 10 years old. • Plasma exchange is most effective when started within seven days of symptom onset. • The mechanism is thought to be removal of antibodies directed against nerves from the circulation.

  23. IVIG vs. Plasmapheresis: Recommendations of the AAN • Both intravenous immune globulin (IVIG) and plasma exchange are options for children with severe GBS. • IVIG is preferred to plasma exchange in children because of the relative safety and ease of administration • IVIG and plasma exchange for children with GBS should be reserved for those with: • Rapidly progressing weakness • Worsening respiratory status or need for mechanical ventilation • Significant bulbar weakness • Inability to walk unaided

  24. Treatment of GBS in childrenRecommendations of the AANReferences • Hughes RA, Wijdicks EF, Barohn R, et al. Practice parameter: immunotherapy for Guillain-Barré syndrome: report of the Quality Standards Subcommittee of the American Academy of Neurology. Neurology 2003; 61:736. • Patwa HS, Chaudhry V, Katzberg H, et al. Evidence-based guideline: Intravenous immunoglobulin in the treatment of neuromuscular disorders: Report of the Therapeutics and Technology Assessment Subcommittee of the American Academy of Neurology. Neurology 2012; 78:1009. • Yoki N and Hartung HP. GuillainBarreSyndrom. NEJM 2012;366:2294.

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