Prematurity

12 min read Last updated April 9, 2026

Surgical approach (context-dependent: prematurity is not an operation)

  • Common prematurity-related operations encountered by anaesthetists
    • Inguinal herniotomy (± orchidopexy if older): open or laparoscopic, reduce hernia sac, high ligation, day-case vs overnight depending on post-conceptual age and comorbidity
    • PDA ligation/closure: surgical clip/ligation via thoracotomy (less common now) or catheter closure (interventional cardiology)
    • NEC laparotomy: resection of necrotic bowel, stoma formation, peritoneal drainage (very unstable physiology)
    • ROP treatment: laser photocoagulation or intravitreal anti-VEGF, often requires immobility and airway control
    • VP shunt for post-haemorrhagic hydrocephalus, airway and temperature critical

Anaesthetic management (typical patterns for ex-premature infants)

  • Type of anaesthesia
    • Often GA for airway control/immobility, consider regional (spinal/caudal) for lower abdominal surgery (e.g., herniotomy) to reduce postoperative apnoea risk in selected infants
    • Avoid deep sedation without secured airway for painful procedures due to apnoea/obstruction risk
  • Airway device
    • ETT commonly preferred in ex-premature infants (reflux/aspiration risk, need for controlled ventilation, prolonged procedures, ROP laser, NEC, PDA)
    • SGA may be acceptable for brief, non-intraabdominal procedures in stable larger infants, be cautious with high airway pressures/BPD
  • Duration (varies with procedure)
    • Herniotomy ~30–60 min, ROP laser ~45–120 min, PDA closure ~60–120 min, NEC laparotomy often &gt,2 h
  • Painfulness
    • Herniotomy: moderate, ROP laser: painful/stressful, PDA thoracotomy: severe, NEC laparotomy: severe
    • Use multimodal analgesia, consider regional techniques (caudal/ilioinguinal blocks, paravertebral/epidural for thoracotomy where appropriate expertise/resources)
  • Overarching priorities
    • Prevent apnoea/bradycardia, maintain temperature, glucose and electrolytes, avoid volutrauma/barotrauma, minimise oxygen toxicity, and plan postoperative monitoring

Definitions and epidemiology

  • Prematurity: birth &lt,37 weeks gestational age (GA).
  • Extremely preterm &lt,28 weeks, very preterm 28–31+6, moderate 32–33+6, late preterm 34–36+6.
  • Perioperative risk relates to current age, postmenstrual age (PMA = GA at birth + chronological age), weight, comorbidities (esp BPD), and anaemia.

Why prematurity matters to anaesthesia (high-yield physiology)

  • Respiratory: low FRC, high closing volume, compliant chest wall → rapid desaturation, immature central control → apnoea, surfactant deficiency history, BPD/CLD common.
    • Higher oxygen consumption per kg and limited reserve, atelectasis risk under GA
    • BPD: air-trapping, CO2 retention, pulmonary hypertension, sensitive to high airway pressures and high FiO2
  • Cardiovascular: transitional circulation issues (PDA/PFO), limited ability to increase stroke volume → cardiac output is rate-dependent, labile BP, pulmonary hypertension risk.
    • Bradycardia with hypoxia, vagal stimulation, or apnoea, treat cause first (oxygenation/ventilation)
  • Thermoregulation: large surface area:mass, thin skin, little brown fat → rapid heat loss, hypothermia worsens acidosis, coagulopathy, apnoea.
  • Metabolic: limited glycogen stores → hypoglycaemia, immature renal handling → electrolyte disturbances, higher risk of hyponatraemia with hypotonic fluids.
    • Use isotonic maintenance fluids, monitor glucose and electrolytes in longer cases/ill infants
  • Haematology: anaemia common, anaemia increases postoperative apnoea risk, coagulation immaturity in very preterm.
  • Neurology: vulnerable to IVH/periventricular leukomalacia, avoid extremes of PaCO2 (hypocapnia reduces cerebral blood flow, hypercapnia increases ICP and pulmonary vasoconstriction).
  • Drug handling: reduced protein binding, immature hepatic metabolism and renal clearance → prolonged drug effects, increased sensitivity to volatiles/opioids, careful titration.

Key perioperative complication: postoperative apnoea (FRCA core topic)

  • Definition: cessation of breathing ≥20 s, or shorter pause associated with bradycardia/desaturation/cyanosis, may be central, obstructive, or mixed.
  • Risk factors: low PMA, low birth GA, history of apnoea, BPD, anaemia, sepsis, hypothermia, hypoglycaemia, opioids/sedatives, ongoing oxygen requirement.
  • Timing: risk highest in first 12 h but can occur up to 24 h post-op, monitor accordingly.
  • PMA thresholds (pragmatic exam-friendly): significant apnoea risk persists until ~50–60 weeks PMA, many units admit for overnight monitoring if &lt,60 weeks PMA, or &lt,50–55 weeks if completely well and non-anaemic (local policy varies).
    • Anaemia increases risk: consider Hb check, treat/optimise if low (thresholds vary, Hb &lt,10 g/dL often cited as higher risk, especially in younger PMA).
  • Prevention/mitigation: maintain normothermia, normoglycaemia, avoid excessive opioids, consider regional techniques, ensure adequate postoperative monitoring (apnoea/bradycardia alarms).
  • Caffeine: methylxanthine respiratory stimulant, may reduce apnoea in high-risk infants (e.g., caffeine citrate 10 mg/kg loading then 5 mg/kg/day—local protocols). Consider in consultation with neonatology.

Preoperative assessment (what to actively seek)

  • Gestational age at birth, chronological age, and PMA, current weight and growth trajectory.
  • Respiratory history: BPD/CLD, baseline SpO2, home oxygen, recent apnoea/bradycardia, recent URTI, ventilation history, pulmonary hypertension, diuretics/bronchodilators.
  • Cardiac: PDA status, echo findings (PHTN), murmurs, heart failure signs, current meds (e.g., diuretics).
  • Neurology: IVH history, seizures, hydrocephalus/shunt, baseline tone and feeding.
  • Haematology: Hb/haematocrit, transfusion history, consider Hb particularly if PMA &lt,60 weeks or symptoms.
  • Airway: small mandible, limited reserve, previous intubation difficulty, subglottic stenosis risk after prolonged ventilation.
  • Fasting and fluids: avoid prolonged fasting, consider IV dextrose-containing isotonic fluids for small infants if prolonged fast/ill, check glucose perioperatively.
  • Planning: postoperative destination (ward/HDU/NICU), monitoring duration, and whether surgery should occur in a paediatric centre with neonatal support.

Intraoperative management (practical FRCA approach)

  • Environment/monitoring: warm theatre, forced-air warmer, warmed fluids, hat/occlusive wrap, standard monitoring plus temperature, consider pre-ductal SpO2 in PHTN.
  • Induction: avoid hypoxia/bradycardia, gentle airway manipulation, consider atropine in high vagal tone/bradycardia-prone infants (local practice).
  • Airway: appropriately sized ETT (uncuffed/cuffed microcuff depending on size/unit), confirm depth carefully, secure well, avoid repeated attempts.
  • Ventilation: lung-protective strategy, avoid high pressures, use PEEP to prevent atelectasis, target normocapnia, cautious oxygen—titrate to saturations appropriate for the child’s baseline/condition.
    • BPD/PHTN: avoid hypoxia, hypercapnia, acidosis, hypothermia, pain (all increase PVR), consider iNO/vasodilators only with specialist support
  • Fluids: isotonic crystalloid, avoid hypotonic solutions, glucose monitoring (especially small/long cases), careful volume to avoid PDA/PHTN decompensation.
  • Analgesia: paracetamol (weight-based), regional blocks where appropriate, opioid-sparing approach, if opioids used, titrate carefully and plan monitoring.
  • Regional anaesthesia: spinal (e.g., herniotomy) can reduce early apnoea risk but does not eliminate need for monitoring, may fail, avoid high block causing apnoea, ensure resuscitation readiness.
  • Emergence: extubate fully awake if appropriate, ensure normothermia and adequate ventilation, consider postoperative CPAP/HFNC for BPD or if baseline support.

Postoperative care

  • Monitoring: continuous SpO2 and apnoea/bradycardia monitoring for at-risk infants (often overnight), ensure staff trained to respond.
  • Apnoea management: stimulate, airway reposition, oxygen, treat hypothermia/hypoglycaemia, consider CPAP, escalate to ventilation if recurrent/prolonged.
  • Analgesia: regular paracetamol, cautious opioids, consider regional top-ups if catheter techniques used, avoid oversedation.
  • Feeding: early enteral feeds when safe, minimise fasting, coordinate with neonates/paeds surgery.

Prematurity-associated comorbidities relevant to anaesthesia (quick list)

  • BPD/CLD ± pulmonary hypertension, PDA, recurrent apnoea of prematurity, GERD/aspiration, IVH and hydrocephalus, NEC/short gut, ROP, anaemia of prematurity, sepsis risk.

FRCA exam angles (what commonly gets asked)

  • Explain postoperative apnoea in the ex-premature infant: risk factors, PMA thresholds, monitoring duration, and prevention strategies.
  • Anaesthetic technique for inguinal hernia repair in an ex-premature infant: GA vs spinal, airway choice, analgesia, and postoperative disposition.
  • Discuss anaesthesia for ROP laser: airway, oxygen strategy, analgesia, and postoperative apnoea risk.
  • Physiological differences in preterm infants relevant to anaesthesia (respiratory control, thermoregulation, pharmacology).

Test yourself…

You are asked to anaesthetise an ex-28-week infant for inguinal hernia repair. What further information do you need preoperatively?

Structure your answer around age metrics, respiratory/cardiac comorbidity, anaemia, and postoperative planning.

  • Confirm GA at birth, chronological age, and calculate PMA, current weight.
  • Respiratory: BPD/CLD, baseline SpO2, home oxygen/CPAP, recent apnoea/bradycardia, recent URTI, previous ventilation duration, pulmonary hypertension history.
  • Cardiac: PDA status/echo, PHTN, signs of heart failure, meds (diuretics).
  • Hb/anaemia history and transfusions, consider Hb measurement if not recent.
  • Previous anaesthetics/intubations (subglottic stenosis risk), airway concerns, reflux/aspiration risk.
  • Agree postoperative destination and monitoring duration (often overnight if PMA &lt,60 weeks or comorbid).
Define postoperative apnoea in the ex-premature infant and list the main risk factors.

Give a clear definition and a high-yield list of risk factors.

  • Apnoea: pause in breathing ≥20 s, or shorter pause with bradycardia/desaturation/cyanosis, central/obstructive/mixed.
  • Low PMA and lower gestational age at birth.
  • History of apnoea/bradycardia, BPD/CLD, ongoing oxygen requirement.
  • Anaemia, sepsis, metabolic disturbance (hypoglycaemia), hypothermia.
  • Opioids/sedatives and residual anaesthetic effects.
How does postmenstrual age influence your plan for day-case surgery in ex-premature infants?

Answer in terms of residual apnoea risk and need for postoperative monitoring, acknowledge local policy variation.

  • Risk of postoperative apnoea falls with increasing PMA but may persist to ~50–60 weeks PMA.
  • Many centres admit for overnight monitoring if PMA &lt,60 weeks, or if comorbidities (BPD, ongoing oxygen, recent apnoea) regardless of PMA.
  • Anaemia increases risk, a well infant with higher PMA and normal Hb may be suitable for day-case with a period of observation (unit-specific).
  • Monitoring should cover the period of greatest risk (often at least 12 h, some require 24 h depending on risk profile).
Discuss the pros and cons of spinal anaesthesia for inguinal hernia repair in an ex-premature infant.

Examiners want balanced discussion: apnoea reduction vs failure/airway risks and monitoring still required.

  • Pros: avoids airway instrumentation and reduces exposure to systemic anaesthetics/opioids, may reduce early postoperative apnoea.
  • Cons: block failure/limited duration, may require conversion to GA, positioning and handling can still provoke apnoea/bradycardia, high spinal can impair ventilation.
  • Does not eliminate need for postoperative monitoring in high-risk infants (low PMA/anaemia/BPD).
  • Practical: ensure skilled operator, resuscitation readiness, temperature control, and plan for analgesia once block wears off.
Outline your anaesthetic technique for ROP laser in a former preterm infant.

Focus on airway control, oxygen strategy, analgesia, and postoperative apnoea risk.

  • GA usually required for immobility and airway protection, ETT commonly chosen (procedure stimulation, shared airway concerns, need for controlled ventilation).
  • Ventilation: avoid hypoxia/hypercapnia, use PEEP to reduce atelectasis, titrate FiO2 to target saturations (avoid unnecessary hyperoxia).
  • Analgesia: paracetamol ± small opioid doses, consider local measures where applicable, avoid oversedation post-op.
  • Temperature and glucose control, careful fluid management.
  • Post-op: plan for apnoea monitoring based on PMA/comorbidity, consider postoperative respiratory support if baseline BPD/oxygen requirement.
Why do ex-premature infants desaturate quickly during apnoea or airway manipulation?

Link anatomy/physiology to anaesthetic implications.

  • Low FRC and high closing volume → airway closure and atelectasis occur early.
  • High oxygen consumption per kg and limited oxygen stores.
  • Compliant chest wall and reduced respiratory muscle endurance.
  • Residual lung disease (BPD) further reduces reserve and increases V/Q mismatch.
What perioperative measures reduce the risk of postoperative apnoea in ex-premature infants?

Think: minimise physiological stress and drug respiratory depression, plan monitoring.

  • Maintain normothermia and normoglycaemia, treat sepsis/metabolic derangements.
  • Opioid-sparing analgesia, consider regional techniques (spinal/caudal/nerve blocks).
  • Careful titration of anaesthetic agents, avoid prolonged deep sedation post-op.
  • Consider caffeine in selected high-risk infants with neonatal input.
  • Appropriate postoperative monitoring and readiness to provide CPAP/ventilation.
An ex-premature infant with BPD is coming for surgery. What ventilatory strategy will you use and why?

Aim to avoid barotrauma, dynamic hyperinflation, and rises in PVR.

  • Use lung-protective ventilation: modest tidal volumes, limit peak pressures, apply appropriate PEEP to prevent atelectasis.
  • Allow sufficient expiratory time to reduce air-trapping (avoid high RR if causing breath stacking).
  • Target normocapnia, avoid hypoxia, hypercapnia and acidosis (all increase PVR and can worsen pulmonary hypertension).
  • Titrate FiO2 to need, avoid unnecessary hyperoxia while ensuring adequate oxygenation.
Discuss fluid and glucose management in a preterm or ex-preterm infant undergoing surgery.

Examiners want avoidance of hypoglycaemia and hyponatraemia, and careful volume management.

  • Avoid prolonged fasting, consider IV fluids if fasting is extended or infant is small/unwell.
  • Use isotonic solutions for maintenance/boluses to reduce hyponatraemia risk, add glucose if needed and monitor blood glucose.
  • Monitor electrolytes in longer cases/critically ill infants, renal immaturity increases risk of imbalance.
  • Avoid fluid overload (can worsen PDA/heart failure/BPD), titrate to perfusion and losses.
What are the main pharmacological considerations when giving anaesthesia to ex-premature infants?

Focus on altered distribution, metabolism, and sensitivity.

  • Reduced protein binding and higher total body water → altered volume of distribution, dosing must be weight-based and titrated to effect.
  • Immature hepatic metabolism and renal clearance → prolonged effects of many drugs (opioids, muscle relaxants, sedatives).
  • Greater sensitivity to respiratory depressant effects of opioids and sedatives, prefer opioid-sparing techniques and careful monitoring.
  • Neuromuscular blockade: careful dosing and monitoring, ensure full reversal if used.
Discuss the perioperative management of an ex-premature infant presenting for inguinal herniotomy.

A common FRCA viva/SAQ theme: structure into preop, intraop, postop, and apnoea risk.

  • Preop: GA at birth, PMA, weight, BPD/oxygen requirement, recent apnoea, Hb/anaemia, cardiac/PDA/PHTN, fasting plan, postoperative destination.
  • Technique: GA with ETT or spinal anaesthesia, opioid-sparing analgesia, consider caudal/ilioinguinal block, maintain temperature and glucose.
  • Ventilation: avoid hypoxia/hypercapnia, gentle pressures, PEEP, titrate oxygen.
  • Postop: apnoea/bradycardia monitoring (often overnight if PMA &lt,60 weeks or comorbid/anaemic), cautious opioids, manage apnoea promptly.
Explain postoperative apnoea in ex-premature infants and how you would reduce its incidence.

This maps to classic FRCA questioning: definition, risk factors, thresholds, prevention, and monitoring.

  • Define apnoea and describe central vs obstructive vs mixed events, note association with bradycardia/desaturation.
  • Risk factors: low PMA, low GA at birth, prior apnoea, BPD, anaemia, sepsis, hypothermia, hypoglycaemia, opioids/sedatives.
  • Risk reduction: normothermia, normoglycaemia, treat anaemia if appropriate, opioid-sparing/regional techniques, consider caffeine in selected cases, avoid residual sedation.
  • Monitoring: continuous apnoea/bradycardia/SpO2 monitoring, duration guided by PMA and comorbidity (often at least overnight in higher-risk infants).
List the physiological differences between preterm infants and term infants that are relevant to anaesthesia.

A classic SAQ: organise by systems.

  • Respiratory: low FRC, high closing volume, compliant chest wall, immature drive → apnoea, BPD risk.
  • CVS: rate-dependent CO, transitional shunts (PDA/PFO), PHTN susceptibility, bradycardia with hypoxia/vagal stimulation.
  • Thermoregulation: high heat loss, limited brown fat → hypothermia risk.
  • Metabolic/renal: hypoglycaemia risk, immature renal function → electrolyte issues, avoid hypotonic fluids.
  • Pharmacology: altered distribution, reduced clearance, increased sensitivity to respiratory depressants.

0 comments