What do we mean by birth asphyxia



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Neonatal Medicine and brain injury in the Infant at term Andrew Whitelaw Professor of Neonatal Medicine University of Bristol What do we mean by birth asphyxia Interruption in oxygen delivery to the fetus severe enough to produce: Metabolic acidosis Bradycardia and decreased cardiac output Impaired muscle tone and reflexes Delayed onset of breathing 1

Some causes of intrapartum asphyxia (global cerebral hypoxia-ischemia) 1. Placental abruption. 2. Prolapsed umbilical cord 3. Prolonged/frequent uterine contraction 4. Fetal hemorrhage 5. Placental aging 6. Intrauterine growth restriction 7. Hypoxia combined with infection/inflammation/fever The two types of asphyxia from Myers experimental work with pregnant monkeys: 1. Acute total asphyxia (clamping umbilical cord for 2 3 minutes. Damage to brain stem, basal ganglia. 2. Prolonged partial asphyxia (hypoxic gas mixture to the pregnant monkey for hours). Hemispheric damage with cerebral oedema. 2

What do we mean by neonatal encephalopathy? 1. Infants of 36 weeks or more. 2. Acute disturbance in tone and consciousness OR seizures What do we mean by hypoxic-ischaemic encephalopathy (HIE)? Neonatal encephalopathy with convincing evidence that birth asphyxia was the cause MacLennan A et al. A template for defining a causal relation between acute intrapartum events and cerebral palsy: international consensus statement. BMJ 1999; 319: 1054-9. Essential criteria: 1. Metabolic acidosis on cord blood or very early (1 hour) neonatal blood (ph 7.0 or base deficit > 12 mmol/l. 2. Early onset of severe or moderate neonatal encephalopathy in infants of > 34 weeks gestation. 3. Cerebral palsy of the spastic quadriplegic or dyskinetic type. 3

MacLennan A et al. A template for defining a causal relation between acute intrapartum events and cerebral palsy: international consensus statement. BMJ 1999; 319: 1054-9. Criteria that together suggest an intrapartum timing but are non-specific: 4. A sentinel hypoxic event immediately before or during labour. 5. A sudden, rapid and sustained deterioration of fetal heart rate. 6. Apgar scores of 0-6 for longer than 5 minutes. 7. Early evidence of multisystem involvement. 8. Early imaging evidence of acute cerebral abnormality. Prognosis after birth asphyxia Apgar score < 5 at 10 minutes : nearly 50 % death or disability (Leicester) No spontaneous respiration after 20 min ca 60 % disability in survivors (USA). No spontaneous respiration after 30 minutes : nearly 100 % disability in survivors (Newcastle). Grade of post-hypoxic encephalopathy. 4

Moderate Hypoxic-ischaemic encephalopathy after Placental abruption Grade 3 (severe) neonatal encephalopathy 5

Abnormal movement in hypoxic-ischaemic encephalopathy Grade of encephalopathy and outcome Mild (grade 1) always recovers Moderate (grade 2) should be back to normal by 7-10 days if recovery is to be good. Overall 25 % disability Severe (grade 3) nearly 100% disability or death. Those that recover are showing it by 3 days. 6

The scale of the problem How common is hypoxic-ischemic encephalopathy? Moderate-severe HIE occurs in 1-2/1000 births Approximately 0.5 to 1.0/1000 infants survive with cerebral palsy due to HIE. In the UK, 3 million is the average compensation if negligence is shown. Processes which continue to kill brain cells after re-oxygenation: 1. Free radical injury 2. Excitotoxic amino acids e.g.glutamate 3. Calcium entry 4. Inflammation 5. Apoptosis 6. Prolonged seizures? 7. Prolonged hypoglycemia 8. Prolonged hypotension 7

Cerebral function monitor Single channel portable EEG from bi-parietal electrodes Amplifies, filters (2-15 Hz) Compresses and rectifies Lower edge: non-rhythmic minimum level of cerebral activity Upper edge rhythmic and nonrhythmic maximum level of cerebral activity Cerebral function monitor in the full term infant Normal trace: Lower margin >5 Upper margin >10 Sleep-waking variability 8

Cerebral function monitor in the term infant Seizure activity on a normal background Cerebral function monitor in the term infant Lower margin < 5 microvolts 9

Cerebral function monitor in the term infant Lower margin < 5 microvolts Upper margin < 10 microvolts. Burst suppression Resistance Index RI = Systolic velocity diastolic velocity Systolic velocity Advantages: Independent of angle of insonication Prognostic after 24 hours in HIE at term Low RI, <0.55 predicts adverse outcome Levene, 1989 PPV 83% 10

Example of low RI Hypoxicischaemic Encephalopathy MRI showing high T1 signal in the basal ganglia and thalamus 11

Interventions for hypoxic-ischaemic Encephalopathy at term Interventions to reduce cerebral oedema Mannitol/corticosteroids Anticonvulsants Calcium channel blockers Interventions aimed at glutamate receptors Magnesium sulphate Interventions that reduce free radical damage Allupurinol Hypothermia Endorphin antagonists Selective head cooling with mild systemic hypothermia Whole body hypothermia by mattress 12

Cool Cap Trial Gluckman et al Lancet 2005; 365: 663-70. Multicentre US, UK, Canada, NZ (Bristol leading UK centre). Asphyxia + neurological sign+ abnormal aeeg Randomised by 5.5 hr. 72 head cooling with Rectal temp 34.5 C for 72 hours v normo N = 234. 218 followed up (93%) 66% of control group dead or disabled at 18 m 55% of hypothermia group dead/disabled Cool Cap trial. Lancet 2005 Those who had the most advanced EEG changes at entry had no advantage from cooling. The 172 who had less advanced EEG changes at entry showed a significant benefit from cooling. Odds ratio for death or disability 0.42 (0.22 to 0.8 Number needed to treat 6 13

NICHD trial of whole body hypothermia Shankaran et al NEJM in press Inclusion: Gestational age > 35 weeks 1. Birth asphyxia ph <7.0 or base deficit >16 2. Acute event or 10 min Apgar <5 or ventilation AND seizures or moderate/severe encephalopathy Treatment: Blanket pre-cooled to 5 o C Oesophageal temperature 33.5 o C for 72 hours. Rewarm at 0.5 o C/hour. NICHD trial of whole body hypothermia Shankaran et al NEJM in press 709 screened 239 eligible 209 enrolled Hypothermia Normothermia N 102 106 Age in hours 3.8 4.2 Outborn 48 45 Apgar <5 at 10 min 80 74 Temp 33.5 (32.7) 36.7 37.4 Heart rate 110 147 14

NICHD trial of whole body hypothermia Shankaran et al NEJM in press 2005 Normothermia Hypothermia Death/disability 64 (62%) 45 (45%) Odds ratio 0.72 (0.55 to 0.93) Number needed to treat 6 Bayley scales >85 25 (42%) 39 (53%) Bayley 70-84 13 (22%) 17 (23%) Bayley <70 22 (37%) 18 (24%) Disabled CP 18 (29%) 15 (20%) Death 38 (36%) 24 (24%) Hypothermia 1. Eicher 2004 : Total body hypothermia 33 C 2. Gluckman 2005 Selective head cooling + 34.5 C 3. Shankaran 2005 Total body hypothermia 33.5 C Cooled Not cooled 1. N 27 25 Dead or disabled 14 21 2. N 108 110 Dead or disabled 59 73 3. N 101 103 Dead or disabled 45 64 Combined N 236 238 Dead or disabled 118 50% 158 66.4% Relative Risk 0.67 (0.54 to 0.84) Number needed to treat: 6 15

Left Middle cerebral artery infarct Right sided motor impairment Thought to be arterial thrombosis or embolus from placenta Not currently accepted as being due to birth asphyxia Differential diagnosis of neonatal encephalopathy Prenatal brain injury Perinatal Infarct Infection: bacterial/viral/protozoal Trauma Haemorrhage Hypoglycaemia Hyperbilirubinaemia Cerebral malformations Metabolic diseases 16

Questions to neuroiomaging 1. Differential diagnosis? 2. Timing of injury? 3. Prolonged partial v acute total asphyxia? 4. Severity of injury: prognosis Withdrawal of life support in HIE 1. Severe HIE persisting > 48 hours. Clinical state not explained by drugs. 1. Corresponding EEG with low amplitude or burst suppression. 3. Low Resistance index < 0.55 after 24 hours 4. Corresponding imaging predictive of cerebral palsy: absence of myelin signal in PLIC and abnormal signal in basal ganglia/thalami. 17

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