1 / 30

A Case of Pediatric Pain

A Case of Pediatric Pain. Edward C. Jauch, MD MS FACEP Department of Emergency Medicine Dawn Kleindorfer, MD Department of Neurology University of Cincinnati College of Medicine and Greater Cincinnati / Northern Kentucky Stroke Team. Case History of Present Illness.

wyman
Download Presentation

A Case of Pediatric Pain

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. A Case of Pediatric Pain Edward C. Jauch, MD MS FACEP Department of Emergency Medicine Dawn Kleindorfer, MD Department of Neurology University of Cincinnati College of Medicine and Greater Cincinnati / Northern Kentucky Stroke Team

  2. CaseHistory of Present Illness • 12 yo. Caucasian female who presents to the Emergency Department complaining of diffuse body pain • Symptoms began one week ago originally in distal extremities but now throughout entire body • Patient has missed school for the past 4 days due to pain with ambulation but she denies any weakness

  3. CasePast History • Past medical history - • No significant past medical history • Mother notes that members of the family had a “stomach flu”, including the patient, 3 weeks ago • Social history - • Family recently moved to area, patient is having difficulty adjusting to new school • No alcohol or drug use • Review of systems - • No fever, chills, chest or abdominal pain, rashes • Patient states it hurts to breath

  4. CasePhysical Exam • VS: BP 98/60 HR 110 T 98.9oF SaO2 99% • Tearful young female clinging to mom • HEENT, pulmonary, cardiac, abdominal, extremity, skin exams all unremarkable • Neuro exam - • Cranial nerves intact • Motor largely intact but limited by effort • Sensory shows extreme sensitivity to touch in all extremities and less so on trunk • Motor tone normal but reflexes absent • Patient refused to walk

  5. CaseLaboratory Evaluation • Chest xray unremarkable • CBC and renal profile normal • Hepatic with mildly elevated transaminases • UA and urine pregnancy negative

  6. CaseDisposition • Discharge diagnosis: Viral syndrome • Follow-up was scheduled with the patient’s pediatrician the following week • The physician also discussed with the patient’s parents that her behavior may also reflect her difficulty with her new school

  7. CaseSecond E.D. Visit • Patient returns 2 days later now complaining of profound weakness and shortness of breath • VS: BP 130/78 HR 125 T100.6oF • General exam unchanged except increased shortness of breath • Neuro exam now reveals: • CNI except bilateral VII nerve weakness • Flaccid lower and weak upper extremities • Less pain to touch but burning sensation persists • Deep tendon reflexes remain absent

  8. What is Your Diagnosis?

  9. Guillain Barre Strohl Syndrome

  10. Pathophysiology • First described in the 1930’s GBS is an form of acute polyradicularneuropathy • Primarily due to demyelination of peripheral nerves • In severe forms actual axonal damage occurs (associated with worse prognosis) • Numerous precipitants have been identified

  11. Epidemiology • General incidence of GBS in children range from 0.8-1.5 per 100k annually • Male to female ratio of 1.5:1 • No difference based on: • Ethnicity • Geographic local (although China with outbreaks) • Socioeconomic status

  12. Pathophysiology • Precipitating causes include: • Prodromal viral or bacterial illness • Campylobacter jejuni • Chlamydia, CMV, EBV, HIV, Mycoplasma pneumoniae, • Vaccinations (influenza, MMR, oral polio, Td) • Pregnancy • Malignancy (Hodgkins) • Surgery • Other (SLE, drugs) • Unknown

  13. Clinical Findings • Motor • Ranging from mild weakness to paralysis • Symmetric and ascending • Cranial nerves (IV, VI, VII) but rarely bulbar • Areflexia • Sensory • Pain or dysesthesia very common • Visceral symptoms not infrequent

  14. Common Pain Syndromes in GBS • Back and leg pain • Similar in presentation to sciatica • Affect large muscle groups • Neuropathic pain • Burning sensations in the extremities • Visceral pain • Bloating, cramping • Joint pain and myalgias • Affects primarily large joints

  15. Laboratory Evaluation • Basic labs – • Renal profile (SIADH seen in GBS) • CBC • Hepatic (elevations in transaminases common) • Pregnancy • ESR (typically < 50 mm/hr) • CK (elevated in patients with significant pain) • UA (proteinuria in 25%) • CSF – • Usually with normal opening pressure • Classically with elevated protein (> 400 mg/dL) • Lack of pleocytosis

  16. Specific Laboratory Evaluations • Serum – • Antibodies to GM1, Ga1C, or GA1NAc-GD1a gangliosides • Antibodies to Campylobacter jejuni • Antibodies to CMV • HIV • Stool cultures for C. jejuni

  17. Electromyographic Testing and Neuroimaging • EMG • Demonstrates • Demyelination + axonal loss • Diminished nerve conduction velocities • Diagnosis more specific if multiple nerves involved • MRI with gadolinium contrast • Enhancement of cauda equina and nerve roots suggest areas of inflammation

  18. Acute Neuropathies Critical illness neuropathy Diphtheria Porphyrias Lyme disease Toxins Tick paralysis NMJ Disorders Botulism Myasthenia gravis Myopathies Critical illness myopathy Hypocalcemia, hypokalemia Polymyositis Rhabdomyolysis CNS Disorders Acute spinal cord syndromes Transverse myelitis Poliomyelitis Rabies Differential Diagnosis

  19. Forms of Guillain-Barre Syndrome • Motor-sensory 75% • Diagnosis almost exclusively clinical • Pure motor 20% • Autonomic dysfunction more common • Miller Fisher syndrome 3% • Weakness starts in eye muscles • Bulbar variant 2% • Weakness involves muscles of deglutition and or tongue (Dutch Neuromuscular Research Centre, Eur Neurol 2001)

  20. Treatment • ABC’s • Supportive and expectant care is key. • Early pulmonary function tests to identify patients at risk of impending respiratory failure • Recognition and treatment of autonomic instability • Immunomodulating therapies

  21. Signs and symptoms Air hunger Altered mentation Accessory muscle use Paradoxical respiration Inability to count to 20 in one breath Staccato speech Paraclinical findings Vital capacity < 15 ml/kg Negative inspiratory force < -25 cm H20 Positive expiratory force < 40 cm H20 Vital capacity drop of > 55% from supine to sitting Hypoxemia Atelectasis Signs, Symptoms, and Paraclinical Findings in Overt Neuromuscular Respiratory Failure (Chalela, Seminars in Neurology 2001)

  22. TreatmentAutonomic Dysfunction • Paroxysmal hypertension • Sudden swings make treatment more difficult • Short acting agents safest (nitroprusside) • Hypotension and orthostatic hypotension • Rarely requires therapy (IV fluids) • Cardiac arrhythmias • Most life threatening • Bradycardia treated with atropine • Tachyarrhythmias may include atrial fibrillation, atrial flutter, and ventricular tachycardia, all respond to standard treatment

  23. TreatmentImmunomodulating Therapies • Plasma exchange • Only therapy with proven benefit • May require multiple exchanges • Cautious use in patients with autonomic instability • Immunoglobulin therapy (IV IgG) • Relatively easy to administer • Benefit unclear • Risk of viral (hepatitis C) transmission • Steroids without benefit (Cochrane Review, 2001)

  24. TreatmentPain Syndromes • Deep muscle ache in low back or large muscles • Nonsteroidal anti-inflammatory drugs • Neuropathic pain • TCA’s effective, use with caution in autonomic dysfunction • Carbamazepine • Joint pain • Ice packs, nonsteroidal anti-inflammatory drugs • Throat pain associated with intubation • Intermittent cuff deflation, tracheostomy

  25. Details • Admission to a high acuity area is critical for adequate patient monitoring • Continuous cardiac monitoring • Close respiratory observation • Do not delay intubation until the patient becomes hypoxic! • Neurology should be involved early on

  26. Clinical factors Advanced age Rapid symptom progression Mechanical ventilation Upper extremity involvement Inability to walk at 8 weeks Biochemical markers Anti-GM1 antibodies High CSF NSE or S100 levels Epidemiologic factors Antecedent diarrhea Campylobacter jejuni infection Cytomegalovirus infection Electrophysiologic findings Absent or reduced CMAP Unexcitable nerves Predominantly axonal involvement Outcome Prediction in GBS (Chalela, Seminars in Neurology 2001)

  27. Prognosis • In general the prognosis of GBS is good • Up to 85% of patients with GBS make a full recovery • Mortality rates range from 2-12% • 15% of patients with persistent deficits

  28. Conclusions • Guillian-Barre Syndrome should no longer have significantly mortality if properly diagnosed and treated • Guillian-Barre may present with pain as the primary symptom in children • The key differential is primary spinal cord injury, GBS, and tick paralysis

  29. CaseOutcome • Patient required intubation within 24 hours of admission • Plasma exchange performed 4 times over next 7 days • Patient was extubated on hospital day 6 • Returned to school 4 weeks from admission • Patient with minimal residual leg weakness at 6 months follow-up

  30. “When the end of the world comes, I want to be in Cincinnati because it's always twenty years behind the times."

More Related