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Neonatal mortality and encephalopathy

Neonatal mortality and encephalopathy. Jeanie Cheong Neonatologist Royal Women’s Hospital, Melbourne, Australia. Perinatal mortality related to HIE. Worldwide (Lawn 2010) 5 th most common cause of death in children under 5 years 23% per annum since 2000 (≈814,000 deaths in 2008)

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Neonatal mortality and encephalopathy

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  1. Neonatal mortality and encephalopathy Jeanie Cheong Neonatologist Royal Women’s Hospital, Melbourne, Australia

  2. Perinatal mortality related to HIE • Worldwide (Lawn 2010) • 5th most common cause of death in children under 5 years • 23% per annum since 2000 (≈814,000 deaths in 2008) • New Zealand 2007-2010 • 14.8% of neonatal deaths attributed to HIE

  3. Neonatal encephalopathy (NE) • Neonatal neurological syndrome • Depressed conscious level • Abnormal tone and power • Feeding difficulties • Seizures • Incidence: 1-6 per 1000 live births • Aetiology: Hypoxia-ischaemia (HIE) in 30-50% • Outcome: • Death (15%) • Severe neurological deficit (25%) (Badawi 98, Cowan 03, Ferriero 04, Volpe 08)

  4. Diagnostic & Prognostic tools in HIE • Clinical evaluation • Biochemistry • Electrophysiology • Neuroimaging

  5. Clinical evaluation

  6. Diagnosis: History suggestive of intrapartum insult • Evidence of fetal distress • Cord or early neonatal acidaemia • Deterioration of fetal heart rate pattern • Sentinel intrapartum event • E.g. Uterine rupture, cord prolapse, placental abruption • Depression at birth • Overt early neonatal neurological syndrome • Depressed conscious level • Abnormal tone and power • Feeding difficulties • Seizures (MacLennan 99, Volpe 08)

  7. Prognosis: Resuscitation • Duration of fetal acidaemia >1 hour • Major resuscitation • 6.4 fold in abnormal neurological outcome • Positive pressure ventilation, intubation and CPR in infants with severe fetal acidaemia • Delayed onset breathing (Low 84, Ambalavanan 06, Salhab 04)

  8. Prognosis: Neurologic evaluation • Severity of acute encephalopathy syndrome • Sensitive for mild or severe encephalopathy • Not so for moderate encephalopathy • Seizures • 40 fold in adverse sequelae • Prognosis worse if early onset and difficult to control • ? Greater injury to the brain • seizure burden associated with Lac/Cho & NAA/Cho independent of structural changes on MRI • Duration of neurological abnormalities • Low risk if normalisation by 1-2 weeks (Finer 83, Levene 86, Robertson 93, Dubowitz 98, Miller 02 & 04, Caravale 03)

  9. Prognosis: Other clinical aspects • “Traditional signs of recovery” • Apgar scores • Signs of recovery e.g. • Early establishment of suck feeds • Visual responsiveness • Head growth have low sensitivity/specificity for predicting neurodisability (Nelson 81, Mercuri 97, 99 & 00, Stark 06)

  10. Biochemistry

  11. Diagnosis • Most biochemical markers have low sensitivity & specificity for diagnosis of HIE • Reflect severity of neurological syndrome • E.g. • Glucose, serum lactate, calcium, sodium, pH • Excitatory amino acids & creatinekinase-BB in CSF, inflammatory markers, brain specific proteins (research only) (de Praeter 91, Volpe 08)

  12. Prognosis • Increased risk of death or severe disability • Hypoglycaemia • If glucose <2.2mmol/L in the first 30 minutes • OR ↑ by 18-fold for death or disability •  peripheral neutrophil counts in first 96 hrs • High % nucleated RBC/WBC • High lactate in cord blood (Salhab 04, Morkos 07, Haiju 08)

  13. Electrophysiology

  14. Conventional EEG • Patterns reflect pathological varieties of HIE • Diffuse cortical & thalamic necrosis • discontinuity, burst suppression, voltage suppression, isoelectric EEG • Periventricularleukomalacia • excessive sharp waves positive vertex or rolandic • Prognosis • Severity & duration of abnormalities • Normalisation within 1 week associated with favourable outcome (Wertheim 94, Biagioni 01, Okumura 02, Caravale 03, Murray 06)

  15. Amplitude integrated EEG (aEEG) • aEEG background pattern: • Reflect severity of HI insult • Prognostic in the first 6 hours • Normalisation within 24 hours in 10-50% of abnormal aEEG • Rapid recovery - good outcome •  PPV if combined with clinical evaluation or MRI • Quantitative aEEG-based index (Cerebral health index/b) • Research tool (Eken 95, Hellstrom-Westas 95, Toet 99, van Rooij 05, de Vries 05, Shalak 03, Leijser 07, Hathi 09)

  16. aEEG in severe HIE Seizures Burst suppression

  17. Evoked potentials & NIRS • Visual evoked potentials (VEP) & somatosensory evoked potentials (SSEP) • Predictive if done within 6 hours • Near infrared spectroscopy (NIRS) • Direct measure of cerebral blood flow • Predictive if done in the first few days • Research tool only (de Vries 91, Taylor 92, Eken 95, Meek 99)

  18. Neuroimaging

  19. Cranial ultrasound • Abnormalities in HIE • Normal (in 50%) • Non-specific cerebral oedema • “Slit-like” ventricles not prognostic (60% controls) • Acute cortical lesions poorly demonstrated • Basal ganglia & thalamic echogenicity • Haemorrhagic necrosis • High PPV of poor outcome if persistent (Babcock 83, Siegel 84, Eken 94, Rutherford 94)

  20. Systolic Diastolic Doppler: Low RI Cranial ultrasound: Doppler • Pourcelot resistive index (RI) • Anterior cerebral artery RI<0.55 • Reflects high cerebral blood flow velocity • Indicative of severity • Associated with poor outcome • Predictive within 24-48 hours (Levene 89, Ilves 04)

  21. Computed tomography (CT) • Patterns of injury in HIE • Diffuse cortical neuronal injury: “reversal sign” • Basal ganglia & thalamic injury: ↓ attenuation • Not sensitive in mild/moderate HI injury “Isoattenuation” of deep nuclear grey matter “Reversal” sign

  22. MR imaging and spectroscopy • Most accurate diagnostic imaging modality • Timing of injury “peripartum” • 245 infants with acute NE & intrapartum HI • MRI findings: • 80% acute HI lesions • 4% antenatal lesions • 4% another disorder • 16% normal (Rutherford 04, Cowan 03)

  23. MRI patterns, nature of insult & outcome (Rutherford 98, Barkovich 98, Cowan 00, Barnett 02, Martinez-Biarge 11, Volpe 12)

  24. MRI: Severe HIE pattern of injury Day 4 T2-weighted MRI

  25. MRI: Watershed white matter injury Day 3 Diffusion weighted MRI (DW-MRI)

  26. Proton MRS • Direct measure of brain metabolites • Metabolite profiles not specific to HIE • Reflect severity of insult • Predictive of poor outcome •  Lac/Cr, Lac/NAA, Lac/Cho •  NAA/Cr • myo-inositol/Cr (Hanrahan 99, Cheong 06, Maneru 01, Miller 02, Robertson 01, Soul 01, Zarifi 02, Barkovich 06)

  27. Importance of TIMING in interpretation • Conventional T1-W/T2-W imaging • Normal on Day 1, abnormal by 3-4 days • Diffusion imaging • Abnormalities apparent early • “Pseudo-normalise” • Proton MRS • Abnormalities appear early •  lactate (tissue necrosis & cell death) •  NAA (neuronal & oligodendroglial injury)

  28. Prognostic value of MR biomarkers in HIE • Late MRI (days 8-30) high sensitivity, low specificity compared with early MRI (days 1-7) • Posterior limb of the internal capsule (PLIC) sign & brain water ADC poor discriminatory powers (Thayyil 10)

  29. Hypothermia & MRI

  30. MRI/DWI/MRS in HIE Severe HIE Moderate HIE

  31. Conclusion • Neonatal encephalopathy (esp HIE) is an important cause of perinatal mortality • Many modalities available in diagnosis & prognosis of HIE • MRI & MRS have greatly improved & refined our ability to prognosticate • However....

  32. “No neurodiagnostic technique is capable of diminishing the importance of the clinical evaluation of the infant in assessment of outcome in HIE. Clinical and specialised diagnostic approaches are of value only when used in concert” (Volpe 08)

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