Neonatology

Question 1

Definition of prematurity?

Answer 1

Before 37 weeks.
Extreme - <28 weeks
Very preterm - 28-32 weeks
Moderate to late preterm - 32-37 weeks

Question 2

Causes of prematurity?

Answer 2

Multiple pregnancies
Infections - group B strep, UTI, vaginal infection, foetal/placental infection, pre-eclampsia, cervical incompetence, placental abruption, PPROM, placenta praaevia, chronic maternal conditions - DM, HTN, 40% have no identifiable cause.

Question 3

Risk factors for prematurity?

Answer 3

Previous preterm delivery
Multiple pregnancy
Smoking and illicit drug use in pregnancy
Being under or overweight in pregnancy
Early pregnancy (within 6 months of previous pregnancy)
Problems involving cervix, uterus or placenta, including infection.
Certain chronic conditions such as DM and HTN.
Physical injury/trauma.

Question 4

Investigations of prematurity?

Answer 4

Blood gas
FBC - preterm infants at high risk of infection, thrombocytopenia and anaemia
U&Es, CRP
Blood culture
Blood group, Direct Coombs Test/Direct Antiglobulin Test.
Chest XR - respiratory distress
AXR - assess signs of NEC.
Crainal USS.

Question 5

Management of prematurity?

Answer 5

Delivery of extreme preterm infant should be planned for hospital with tertiary level neonatal unit.
Administer course of antenatal steroids
Magnesium sulphate for neuroprotection to baby.

Resuscitation:
<23 weeks - should not be performed
23 - 23+6 - best interest of baby
24 - 24+6 - resus commenced unless baby thought to be severely compromised.
After 25 weeks - appropriate to resuscitate and start intensive care.

Question 6

Long term respiratory complications of prematurity and management?

Answer 6

Respiratory distress syndrome
Surfactant deficient lung disease
Chronic lung disease/bronchopulmonary dysplasia
Recurrent apnoea

Surfactant administration, endotracheal intubation, mechanical ventilation.
CPAP, high flow oxygen, nasal cannula low flow oxygen, ambient incubator oxygen, caffeine administration.

Question 7

Long term cardiovascular complications of prematurity and management?

Answer 7

Hypotension
Perfusion abnormalities
PDA

Inotropes
Fluid management
Ibuprofen
Ligation of PDA

Question 8

Long term neurological complications of prematurity?

Answer 8

Intraventricular haemorrhage 
Seizures
Post haemorrhage ventricular dilatation
Neurodevelopmental delay
Cerebral palsy 

CrUSS
Regular head circumference measurements
Admin of AED
Follow up with neuro.

Question 9

Long term gastrointestinal complications of prematurity?

Answer 9

Immature gut causing feed intolerance, necrotising enterocolitis (NEC).

TPN, NG feed, breast milk, abx, surgical review if NEC.

Question 10

Long term renal/electrolyte complications of prematurity?

Answer 10

Immature renal function

Fluid and electrolyte balance monitoring. Catheterisation if indicated.

Question 11

Long term metabolic complications of prematurity?

Answer 11

Jaundice
Hyperglycaemia
Hypoglycaemia
Inborn errors of metabolism

Phototherapy, exchange transfusion, insulin infusion, increase concentration or volume of glucose given via central IV access, doing heel-prick test.

Question 12

Long term infection/immune complications of prematurity?

Answer 12

Sepsis
Increased risk of infection due to central lines and multiple procedures

Septic screen
IV abx

Question 13

Long term skin complications of prematurity?

Answer 13

Immature skin barrier leading to increased insensible losses and increased risk of infection

Nursing in warm, humid incubator, aseptic non-touch technique during procedures.

Question 14

Long term thermoregulation complications of prematurity?

Answer 14

Immature thermoregulation

Nursing in warm humid incubator, cot warmer, awareness of exposure whilst performing procedures and examinations.

Question 15

Long term complications of eyes of prematurity?

Answer 15

Retinopathy of prematurity

Avoid excessive oxygen exposure.
Screening for retinopathy of prematurity by ophthalmology team, laser treatment if indicated.

Question 16

When do anterior and posterior fontanelles close?

Answer 16

Anterior - 9-18 months

Posterior - 6-8 weeks

Question 17

What are the key changes to respiratory system when child is born?

Answer 17

In utero, airways filled with amniotic fluid. Oligohydramnios can lead to small, underdeveloped lungs.
Amniotic fluid removed by squeezing of thorax during vaginal delivery.
There is also reduced production and increased absorption during labour and after birth.
Surfactant lines alveoli and reduces surface tension. Facilitates lung expansion and first breath.
Surfactant produced between 24 to 34 weeks gestation.

Question 18

What are the key changes to CVS when baby is born?

Answer 18

Foetal circulation - pulmonary pressure exceeds systemic pressure causing right to left shunt through foramen vale and ductus arteriosus. Allows bypass of lungs.

At birth, these relationships change:
- systemic pressure increases with clamping of umbilical vessels
- pulmonary pressure reduced as lungs expand (oxygen increase and prostaglandin mediated vasodilation).
Foramen vale and ductus arteriosus close functionally after birth due to changes in pressure.

Question 19

Key features of GI system at birth?

Answer 19

35 weeks gestation, develop coordination to latch on/suck from breast/bottle
Meconium usually passed at day 1
With effective feeding meconium is replaced by yellow stool by day 3-4
Immaturity of liver enzymes responsible for conjugation of bilirubin is responsible for physiological jaundice which can occur from day 2 of life.

Question 20

Key features of GU system at birth?

Answer 20

Infant should void within 24 hours of life.
Often occurs during delivery so may go unnoticed.
Renal concentrating ability is reduced in neonates.

Question 21

Key features of haem/immunity at birth?

Answer 21

Neonates have faetal Hb which has high affinity for oxygen.
Neonates have impaired neutrophil reserves, reduced phagocytosis, reduced complement, low IgG.
Maternal IgA crosses the placenta and are found in breast milk, providing some immune protection.

Question 22

Key features of CNS at birth?

Answer 22

Myelination does not complete until 2 years of life.
Babies are born with primitive reflexes
Newborns sleep for 16-20 hours each day.

Question 23

Apgar score factors?

Answer 23

Pulse
Respiratory effort
Colour
Muscle tone
Reflex/irritability

Question 24

Apgar score ranges?

Answer 24

0-3 - very low
4-6 - moderately low
7-10 baby is in good state

Question 25

Breast feeding in first few days of life?

Answer 25

Colostrum produced by breast in first few days, then replaced by milk.
Colostrum has high protein and Ig content.
Breast feeding intervals gradually lengthen from 2-3 hours to approx 4-hourly schedule.

Question 26

What are contraindications to breast feeding?

What drugs are CI?

Answer 26

Galactosaemia
HIV

Aspirin 
Carbimazole
Methotrexate
Sulfonylureas
Cytotoxic drugs
Amiodarone
Psychiatrics drugs - lithium, benzodiazepines
Abx - ciprofloxacin, tetracycline, chloramphenicol, sulphonamides.

Question 27

Advantages to breast feeding?

Answer 27

Reduced infection, atopy, constipation, maternal breast cancer, sudden infant death syndrome. Convenient, promotes bonding between mum and baby.

Question 28

Disadvantages to breast-feeding?

Answer 28

Volume of intake uncertain.
Transmission of some drugs.
Nutrient deficiencies (vit D, vit K).
Failure to establish breast feeding results in emotional upset and guilt.

Question 29

Difficulties with breastfeeding?

Answer 29

Sleepy baby
Difficulty latching
Cracked nipples
Poor milk supply

Question 30

Problems with bottle feeding?

Answer 30

Incorrect reconstitution -> electrolyte abnormalities.
Over feeding -> reflux and vomiting
Inadequate sterilisation -> gastroenteritis.

Question 31

Foetal causes of IUGR?

Answer 31

Symmetrical
Chromosomal disorders
Congenital infections

Question 32

Maternal causes of IUGR?

Answer 32

Asymmetrical
Pre-eclampsia
Increased maternal age
Smoking
Multiple pregnancy

Question 33

Risk of IUGR?

Answer 33

Death
Hypoxia
Hypothermia
Hypoglycaemia (low fat and glycogen stores)
Polycythaemia
NEC.

Question 34

Management of Group B strep

Answer 34

Antepartum maternal IV benzylpenicillin to women in preterm labour or with previous GBS pregnancy.
High vaginal swab offered at 35-37 weeks to detect GBS.
Women with pyrexia during labour given IV benzylpenicillin
At-risk neonates are given benzylpenicillin.

Question 35

Risk factors for neonatal jaundice?

Answer 35

Gestational age <38 weeks (premature babies).
Small for date babies.
Previous sibling with neonatal jaundice requiring phototherapy.
Mothers intention to breastfeed exclusively.
Visible jaundice in first 24 hours of life.

Question 36

What is physiological jaundice?

Answer 36

Normal rise in bilirubin, causing mild yellowing of skin and sclera from day 2-7 and usually resolves completely by 10 days.
Baby remains otherwise healthy and well.

Question 37

Causes of neonatal jaundice?

Answer 37

First 24 hours - pathological
- excessive haemolysis - rhesus incompatibility, ABO incompatibility, G6PD deficiency, pyruvate kinase deficiency, hereditary spherocytosis.

2 days to 2 weeks:

• physiological
• breast milk jaundice
• UTI
• Excess haemolysis, bruising or polycythaemia

Prolonged jaundice >14 days - always investigate biliary atresia needs urgent surgery.

• uncongugated - breast milk jaundice, UTI, excess haemolysis
• conjugated - biliary atresia, neonatal hepatitis, alpha-1 antitrypsin deficiency.

Question 38

Features of rhesus incompatibility?

Answer 38

Haemolysis, anaemia, jaundice
Severe cases - foetal hydrops and death.

Rhesus status now screened antenatally, and anti-D Ig given to rhesus neg mothers.

Question 39

Features of ABO incompatibility?

Answer 39

Anaemia, jaundice, positive direct antiglobulin test (haemolysis). Less severe than rhesus incompatibility.

Question 40

Features, investigations and management of biliary atresia?

Answer 40

Destruction or absence of extra hepatic biliary tree.
Rare but life-threatening, so much always investigate prolonged jaundice (urgent surgery).

Prolonged jaundice - dark urine, pale stools.
Failure to thrive as disease progresses due to:
- malabsorption
- enlargement of liver and spleen
Bleeding tendency might develop due to vitamin K deficiency.

Abdominal USS, liver biopsy, cholangiography.

Kasai surgical procedure - ideally <6 weeks.

Prognosis - often requires transplant by aged 20.

Question 41

Investigations for prolonged jaundice?

Answer 41

Conjugated fraction
FBC
TFT, LFT, U&E, blood film
Blood group of mum and baby
Coombs test
Urine culture.

Question 42

Management of neonatal jaundice?

Answer 42

Plot serial bilirubin measurements on a treatment threshold graph within 2 hours in all babies with suspected or obvious jaundice in first 24 hours of life, and when bilirubin levels exceed threshold, initiate treatment.

Phototherapy - blue light breaks down bilirubin in the skin

Exchange transfusion - used if phototherapy doesn’t work - involves removing some of baby’s blood and swapping it with donor blood.

Question 43

What is kernicterus?

Answer 43

Complication of unconjugated hyperbilirubinaemia.
Can deposit in basal ganglia and cerebellum, causing bilirubin encephalopathy.

Early signs - lethargy and hypotonia
Later signs - seizures, irritability, hypertonia.

Question 44

What is transient tachypnoea of newborn, features, management?

Answer 44

Delayed resorption of fluid in lungs.
Most common following C sections, possibly due to lung fluid not being squeezed out during passage through birth canal.
CXR shows hyperinflation and fluid in horizontal fissure.

Management - supplementary oxygen may be required.
Usually settles within 1-2 days.

Question 45

What is surfactant deficiency/RDS of prematurity? Features?

Answer 45

Present at birth or develop over 4 hours

Tachycardia
Tachypnoea
Intercostal and subcostal recession
Accessory muscles
Expiratory grunting
Cyanosis/reduced o2 sats.
Nasal flare
Grunting

Question 46

Risk factors for surfactant deficiency?

Answer 46

Male sex
Diabetic mothers
C-section
Second born of premature twins
Prematurity:
- 50% of infants born at 26-28 weeks
- 25% of infants born at 30-31 weeks

Question 47

Investigations and management of surfactant deficiency?

Answer 47

Chest X-ray - ground-glass appearance, indistinct heart border, air bronchogram.

Antenatal management - maternal corticosteroids induce foetal lung maturation.

Foetal management -
- artificial surfactant therapy via ET
- oxygen
Assisted ventilation.

Question 48

Features and management of chronic lung disease?

Answer 48

RDS babies can develop chronic lung disease, due to need of prolonged assisted ventilation with high pressures and high concentrations of oxygen.

Defined as requiring oxygen beyond 36 weeks corrected gestation age or 28 days of age.

CXR - widespread opacities with patchy translucent areas.

Respiratory support - CPAP, oxygen, mechanical ventilation
Steroids to wean from ventilatory support
Strict nutrition

Question 49

What is chronic lung disease major risk factor for?

Answer 49

Bronchiolitis - therefore prophylaxis against RSV required - palivizumab.

Question 50

Name 3 vascular birth marks?

Answer 50

Salmon patches (stork mark)
- flat red/pink patches on baby's eyelids, neck or forehead at birth. Most common. Fades within a few months.

Infantile haemangioma (Strawberry birth mark)
- Red raised marks. Increase in size first 6 months, then shrinks and disappears around 7 years of age. Only treat if blocks aiways. 

Capillary malformation (port wine stain)
- flat red purple marks. Face chest and back - usually affects one side of body. Sensitive to hormones, may become more noticeable around puberty, pregnancy and menopause.

Question 51

Examples of pigmented birth marks?

Answer 51

Cafe-au-lait spots
- coffee coloured. Can have one or two. If more than 6 appear by time child is 5, neurofibromatosis should be excluded.

Mongolian blue spots

• blue-grey or bruised-looking birthmarks, present from birth.
• commonly on dark skinned people. Over lower back or buttocks. Looks like bruise.

Congenital melanocytic nevi (congenital mole)
- large brown/black moles present from birth. Overgrowth of pigmented cells. Becomes smaller and darker. Risk of developing cancer low, but risk increases the larger it is.

Question 52

Risk factors of birth trauma?

Answer 52

Breech presentation
Cephalopelvic disproportion
Macrosomia
Instrumental delivery

Question 53

Common birth trauma injuries?

Answer 53

Bruising
Cephalohaematoma
Brachial plexus injury - eg erbs palsy, especially following shoulder dystocia.
Facial palsy - especially following forceps delivery, often resolves spontaneously, may cause feeding difficulties.
Clavicle fracture - most common fracture
Subaponeurotic haemorrhage - rare but life-threatening.
- haematoma between skull periosteum and scalp galea aponeurosis, caused by instrumental delivery. Can result in large volume of blood loss and haemodynamic instability.

Question 54

Features and management of cephalohaematoma?

Answer 54

Swelling on newborn head, more common following prolonged, difficult deliveries.
Due to bleeding between periosteum and skull -> does not cross suture lines. Parietal region most common.

Develops several hours after delivery and may take up to 3 months to resolve.
Jaundice may occur as Bloods in haematoma gets broken down.

Self limiting, but may require drainage.

Question 55

Risk factors of congenital abnormalities?

Answer 55

Familial
Low and middle income countries
Possible lack of access to sufficient nutritious foods, alcohol, drugs, poor access to healthcare.
Advanced maternal age
Exposure to pesticides or chemicals in pregnancy.
Maternal infections.
Maternal nutritional status (folate deficiency)

Question 56

Features of toxoplasmosis?

Answer 56

Ingestion of raw or undercooked meat, or from oocytes in faeces of infected cats.
Transmission more likely if seroconversion occurs later in pregnancy. But more serious disease occurs if transmission in first trimester.

Features:
Chorioretinitis
Hydrocephalus
Asymptomatic
Intracranial calcification
Neurological damage (including cerebral palsy).

Question 57

Diagnosis of toxoplasmosis?

Answer 57

Antibody test (IgG passes transplacentally from mum).
Neurological exam and ophthalmological exam of retina in at risk neonates.

CT brain with IV contrast or MRI brain.

Question 58

Management of toxoplasmosis?

Answer 58

Pyrimethamine plus sulfadiazine plus calcium folinate for 12 months.

Question 59

Features of neonatal rubella?

Answer 59

SNHL
Congenital cataracts and glaucoma
Congenital heart disease - PDA, pulmonary stenosis
Growth retardation
Hepatosplenomegaly 
Salt and petter chorioretinitis
Cerebral palsy

Question 60

Diagnosis of rubella?

Answer 60

Always consider in growth-restricted neonates with SNHL.

IgM antibodies are raised in women recently exposed to virus.

Question 61

Management of rubella?

Answer 61

No longer screened at booking. If mother tested and has no immunity, should be advised to keep away from people who have rubella.
Non-immune mothers should be offered MMR vaccine in post-natal period.

Question 62

Features of neonatal CMV?

Answer 62

IUGR
Early onset jaundice
Hepatosplenomegaly
Thrombocytopenia
Microcephaly
Purpuric skin lesions
SNHL
Intracranial calcification
Chorioretinitis.

Question 63

Whats the long term sequele of CMV?

Answer 63

Cerebral palsy
Epilepsy
Learning difficulty

Question 64

Diagnosis and treatment of CMV?

Answer 64

Virus isolation (urine and saliva)
Specimens of viral isolation must be taken within 3 weeks of birth

Treat with gangciclovir.

Question 65

Features, diagnosis and treatment of HSV?

Answer 65

Risk highest if mother acquired HSV during 3rd trimester.

Fever, seizures, lethargy, sepsis, vesicular blisters of skin/eye/mucous membranes.

CSF or serum HSV PCR testing.
Eye/mouth/nasopharynx/rectal cultures

Manage with acyclovir for 21 days if disseminated/CNS disease
Manage with acyclovir for 14 days if disease limited to skin/mucous membranes

Question 66

How to reduce risk of passing HIV to baby?

Answer 66

Maternal antiretroviral therapy in pregnancy.
Elective C-section if detectable viral load. (vaginal delivery if viral load undetectable)
Give antiretroviral therapy to neonates for first 6 weeks.
Avoid breast feeding.

Question 67

Features of foetal varicella syndrome?

Answer 67

Scars, lesions, malformed digits and limbs, eye defects, learning disabilities.

Severe neonatal varicella - if mother gets infection near time of delivery, foetus receives high viral load but little maternal antibodies -> increased risk of infection and death.

Question 68

Management of foetal varicella syndrome?

Answer 68

If doubt mother has had chicken pox, check ab’s in maternal blood.
Non-immune - give varicella zoster Ig ASAP. Effective up to 10 days post exposure.

If pregnant women with chickenpox present within 24 hours - give oral acyclovir.

Neonates exposed in high-risk period should be treated with varicella zoster Ig.

Question 69

Features of neonatal syphilis?

Answer 69

Early congenital syphilis - presents before 2 years of age - prematurity, IUGR, highly infectious rhinitis, hepatosplenomegaly, skin rash, osteochondritis, neurological symptoms.

Late congenital syphilis - presents after 2 years of age - craniofacial malformation, dental abnormalities, interstitial keratitis, deafness, neurosyphilis.

Question 70

Investigations of neonatal syphilis?

Answer 70

Serology at first antenatal booking appointment.
Repeated syphilis serology in third trimester and at delivery if serology was positive.
Foetal USS - hepatomegaly, ascites, hydrops.
Infants born to mothers with syphilis require a non-treponemal blood test.
Dark-field microscopy on lesions or nasal discharge.

Question 71

Management of neonatal syphilis?

Answer 71

First line for neonates - IV aqueous benzylpenicillin or IM procaine benzylpenicillin.

Pregnant women should be treated with benzylpenicillin

All pregnant women who have syphilis should be tested for HIV.

Question 72

What is erythema toxicum? Treatment?

Answer 72

Common rash in neonates -> blotchy red spots on skin with overlying white or yellow papule or pustules.
Does not cause any discomfort to infant.
Appears in up to half of term neonates, usually 2-5 days after birth, and resolves within 2 weeks of life.

No treatment indicated, as eruption is transient and self-limiting.

Question 73

Causes of failure to feed?

Answer 73

Premature birth
Congenital causes - herpes, jaundice, ifnections
Congenital hypothyroidism
Down syndrome
Beckwith-Wiedemann syndrome
Temporary conditions - diarrhoea, ear infection, coughs and colds, teething.

Question 74

Red flags for failure to feed?

Answer 74

Not fed in over four hours
Fever
Vomiting after feeding
Vomiting blood
Persistent and worsening cough
Constant crying
Bloody stool
Wheeze
Becoming unresponsive to touch.

Question 75

Treatment of failure to feed?

Answer 75

Treat underlying cause.
Change feeding schedule - smaller, more frequent meals.

Change feeding formula - breast to bottle.

Question 76

Screening for Hep B and treatment?

Answer 76

All pregnant women should have antenatal screening for HBsAg -> babies born to positive mothers should have hep B vaccine within 24 hours of birth.
- Baby should also receive hepatitis B-specific Ig, unless mother is known to be anti-HBe positive.

Question 77

What is Hypoxic Ischaemic Encephalopathy? Features?

Answer 77

Acute or subacute brain injury due to perinatal asphyxia.
Acute injury caused by hypoxia, repercussion injury occurs 6-72 hours later.

Mild - lethargy followed by period of hyper-alertness with irritability but normal tone. Impaired feeding for 1-2 days. No focal signs or seizures. Good prognosis.

Moderate - hypotonia with reduced movements and consciousness. Seizures may be seen. Variable prognosis.

Severe - Coma with absence or spontaneous movement and reflexes. Seizures usually seen and may be frequent. Prognosis poor.

Question 78

Diagnosis of hypoxic Ischaemic Encephalopathy (HIE)

Answer 78

Bloods - U&E, cardiac enzymes, LFTs, clotting screen, ABG
Imaging - MRI brain, cranial USS, echo
Additional - EEG, hearing test, retinal and ophthalmic examination

Metabolic or mixed acidosis in umbilical artery sample.
Apgar score 0-3 for longer than 5 minutes
Neonatal neurological signs (seizure, coma, hypotonia)
Multiple organ involvement.

Question 79

Management of HIE?

Answer 79

Interventions needed within 6 hours of initial hypoxic insult to prevent repercussion injury (can occur 6-72 hours later).
Total body cooling
Respiratory support
Anticonvulsants for seizures 
Fluid restriction
Circulatory support with inotropes.

Cerebral function monitoring for seizures and neurological function.
MRI and electroencephalogram may reveal cystic lesions or cerebral atrophy.

Question 80

How does total body cooling help with HIE?

Answer 80

Reduces risk of neurodisability - induce hypothermia for 72 hours followed by gradual rewarming to protect the brain from reperfusion injury.

Question 81

Complications of perinatal asphyxia?

Answer 81

Brain - HIE
Heart - hypoxic cardiomyopathy, hypotension
Lungs - persistent pulmonary hypertension
Gut - ileus and necrotising enterocolitis
Kidneys - acute tubular necrosis
Blood - DIC

Question 82

Causes of hypothermia?

Answer 82

Preterm infants, due to lack of brown fat, little muscle activity and high body surface area to volume ratio.

Question 83

Management of hypothermia?

Answer 83

Radiant heat
Ambient temperature and humidity
Insulation with clothing (including a hat)
Plastic bags - effectively steaming the baby.

Question 84

What is meconium aspiration and why does it occur?

Answer 84

Neonates pass meconium before delivery -> respiratory distress in new born as result of meconium in trachea.

Occurs in immediate neonatal period.
More common in post-term deliveries.

Question 85

Risk factors for meconium aspiration?

Answer 85

Maternal hypertension
Pre-eclampsia
Chorioamnionitis
Smoking
Substance abuse

Question 86

Management of meconium aspiration?

Answer 86

If thick meconium causing obstruction, suction meconium from trachea under direct vision after delivery.

Most cases are due to aspiration in utero, cannot be prevented by suction at delivery.

Question 87

Causes and management of meconium delay?

Answer 87

Hirschsprung’s disease - requires surgery
Meconium ileus/cystic fibrosis - enema, IV fluids, surgery
Meconium plus syndrome - requires rectal stimulation and enema
Anorectal malformations - dilatation, surgery
Small left colon syndrome - enema, colostomy.

Question 88

What is neonatal apnoea? Features?

Answer 88

Baby doesn’t breathe for >20 seconds.
More common in premature babies than full-term, due to immaturity of respiratory centre of brain, occurring days 2-7 of life.
More common when in REM sleep.
Often idiopathic in premature babies, but almost always pathological in term infants.
May be followed by bradycardia.

Question 89

Management of neonatal apnoea?

Answer 89

> 34 weeks - need cardio-resp/sats monitoring if unstable.

<34 weeks - monitoring for first week of life or until absence of apnoeic episodes for at least 7 days.

Apnoea monitors used in perinatal nurseries to alert staff when to act on apnoea.

Prone position reduced apnoea of prematurity.

Question 90

Step-up treatment of neonatal apnoea after sats monitoring?

Answer 90

First line - oral/IV caffeine. Given routinely <34 weeks neonates. Smooth muscle relaxant and cardiac muscle and CNS stimulant.

If this doesn’t work - high flow nasal cannula.

Then nasal CPAP

Last resort - mechanical ventilation.

Question 91

What are the most common causes of neonatal collapse?

Answer 91

Sepsis and cardiac disease. Both present as shock.

Question 92

Features of neonatal collapse?

Answer 92

Hypothermia, respiratory distress, poor pulses.

Question 93

Management of neonatal collapse?

Answer 93

Initial evaluation and resuscitation - high flow O2, IV access, 20ml/kg normal saline, abx

Question 94

What immediate investigations do you do for neonatal collapse?

Answer 94

ABG, FBC, U&E, glucose, LFTs, clotting, blood cultures, consider LP

CXR, ECG if tachycardic.
Ammonia (if seizures/encephalopathy)

Question 95

Causes of neonatal hypoglycaemia?

Answer 95

Hyperinsulinism
Inadequate hepatic glycogen stores - prematurity, IUGR.
Increased glucose use (hypothermia, sepsis)
Reduced glycogenolysis, gluconeogenesis (inborn errors of metabolism, adrenal insufficiency.

Question 96

Risk factors for hypoglycaemia?

Answer 96

Maternal DM
Prematurity
IUGR
Hypothermia
Neonatal sepsis
Inborn errors of metabolism
Neisioblastosis (beta cell hyperplasia)
Beckwith-Wiedemann syndrome

Question 97

What neurological damage can hypoglycaemia cause?

Answer 97

Mental retardation
Recurrent seizures
Developmental delay
Personality disorders

Question 98

Presentation of hypoglycaemia in neonates?

Answer 98

Asymptomatic
Hypotonia
Lethargy, apathy
Poor feeding
Seizures, jitteriness
Congestive heart failure
Cyanosis
Apnoea
Hypothermia
Tachycardia

Question 99

Diagnosis of hypoglycaemia?

Answer 99

Serum or plasma glucose levels
Serum insulin
Urine - first-voided urine dipstick for ketones
Screen for metabolic errors.

Question 100

Management of hypoglycaemia?

Answer 100

Early feeding of newborn with breastmilk or formula
NG/IM/IO/IV 10% dextrose
IV 10% dextrose drip if hypoglycaemia is recurrent
Surgery if appropriate (eg pancreas resection).