Foetal procedures (incl. CTG, growth scans, dopplers)

Question 1

What is the 3-6-9-12-15 rule for fetal bradycardia?

Answer 1

• 3min - emergency bell pressed
• 6min - change position and examine
• 9min - decision to go to theatre
• 12min - ready for C-section
• 15min - deliver baby

Question 2

What is a CTG?

Answer 2

Cardiotocography (CTG) is used during pregnancy to monitor fetal heart rate and uterine contractions.

Question 3

How does the CTG work?

Answer 3

Involves the placement of two transducers onto the abdomen of a pregnant woman.

One transducer records the fetal heart rate using ultrasound and the other transducer monitors the contractions of the uterus by measuring the tension of the maternal abdominal wall (providing an indirect indication of intrauterine pressure).

Question 4

What is the acronym used to read a CTG?

Answer 4

• DR: Define risk
• C: Contractions
• BRa: Baseline rate
• V: Variability
• A: Accelerations
• D: Decelerations
• O: Overall impression

Question 5

What are some risks important to define when doing a CTG? Why is this useful?

Answer 5

High risk pregnancies include those with the following RFs. If these are present you may have a lower threshold for intervention.

Maternal medical illness

• Gestational diabetes
• Hypertension
• Asthma

Obstetric complications

• Multiple gestation
• Post-date gestation
• Previous cesarean section
• Intrauterine growth restriction
• Premature rupture of membranes
• Congenital malformations
• Oxytocin induction/augmentation of labour
• Pre-eclampsia

Other risk factors

• Absence of prenatal care
• Smoking
• Drug abuse

Question 6

How do you record contractions?

Answer 6

• How many are present in a 10 min period e.g. “2 in 10”
• Duration of contractions - 1big square is 1min
• Intensity by palpation

Question 7

Assess uterine contractions on this CTG.

Answer 7

2 in 10

Question 8

How do you assess baseline HR?

Answer 8

Assess average HR ver the last 10 minutes, ignoring any accelerations or decelerations.

Question 9

What is the normal FHR?

Answer 9

A normal fetal heart rate is between 110-160 bpm.

Question 10

What is the baseline FHR here?

Answer 10

~120bpm

Question 11

Define fetal tachycardia.

Answer 11

Fetal tachycardia is defined as a baseline heart rate greater than 160 bpm.

Question 12

List 5 casues of fetal tachycardia.

Answer 12

Causes of fetal tachycardia include:

• Fetal hypoxia
• Chorioamnionitis
• Hyperthyroidism
• Fetal or maternal anaemia
• Fetal tachyarrhythmia

Question 13

Define fetal bradycardia and severe prolonged bradycardia.

Answer 13

Fetal bradycardia = is defined as a baseline heart rate of <100 bpm.

Severe prolonged bradycardia = less than 80 bpm for more than 3 minutes);indicates severe hypoxia.

Question 14

When is it common to have a FHR of between 100-120bpm?

Answer 14

• Postdate gestation
• Occiput posterior or transverse presentations

Question 15

What are the causes of prolonged severe bradycardia?

Answer 15

Causes of prolonged severe bradycardia include:

• Prolonged cord compression
• Cord prolapse
• Epidural and spinal anaesthesia
• Maternal seizures
• Rapid fetal descent

Question 16

What are the causes of prolonged severe bradycardia?

Answer 16

• Prolonged cord compression
• Cord prolapse
• Epidural and spinal anaesthesia
• Maternal seizures
• Rapid fetal descent

Question 17

What is baseline variability? Why does it occur?

Answer 17

Baseline variability refers to the variation of fetal heart rate from one beat to the next.

Variability occurs as a result of the interaction between the nervous system, chemoreceptors, baroreceptors and cardiac responsiveness.

Question 18

What is normal variability? What does it indicate?

Answer 18

Normal variability is between 5-25 bpm.

It is a good indicator of how healthy a fetus is, as a healthy fetus will constantly be adapting its heart rate in response to changes in its environment.

Normal variability indicates an intact neurological system in the fetus.

Question 19

How do you calculate variability?

Answer 19

Assess how much the peaks and troughs of the heart rate deviate from the baseline rate (in bpm).

Question 20

What are the 3 categories that variability is classified into?

Answer 20

• Reassuring - 5-25bpm
• Non-reassuring
• Abnormal.

Question 21

What is non-reassuring variability?

Answer 21

Non-reassuring:

• less than 5 bpm for between 30-50 minutes
• more than 25 bpm for 15-25 minutes

Question 22

What is abnormal variability?

Answer 22

• less than 5 bpm for more than 50 minutes
• more than 25 bpm for more than 25 minutes
• sinusoidal

Question 23

Assess the variability on this CTG.

Answer 23

Normal - 10-25bpm variability

Question 24

List 5 causes of reduced variability on a CTG.

Answer 24

• Fetal sleeping: this should last no longer than 40 minutes (this is the most common cause)
• Prematurity: variability is reduced at earlier gestation (<28 weeks)
• Drugs: opiates, benzodiazepines, methyldopa and magnesium sulphate
• Fetal acidosis (due to hypoxia): more likely if late decelerations are also present
• Fetal tachycardia
• Congenital heart abnormalities

Question 25

Define acceleration on CTG.

Answer 25

Accelerations are an abrupt increase in the baseline fetal heart rate of greater than 15 bpm for greater than 15 seconds.

Question 26

What is the significance of accelerations? Is it abnormal to have no accelerations?

Answer 26

The presence of accelerations is reassuring- accelerations occurring alongside uterine contractions is a sign of a healthy fetus.

The absence of accelerations with an otherwise normal CTG is of uncertain significance.

Question 27

Define deceleration on CTG.

Answer 27

Decelerations are an abrupt decrease in the baseline FHR of greater than 15 bpm for greater than 15 seconds.

Question 28

What is the pathophysiology of decelerations on CTG?

Answer 28

Autonomic and somatic nervous system controm FHR. Hypoxic stress causes the fetus to reduce FHR to preserve myocardial oxygenation and perfusion, since (unlike adults) fetus cannot increase its respiration depth and rate.

Question 29

What are 3 types of decelerations?

Answer 29

• Early deceleration
• Variable deceleration
• Late deceleration
• Prolonged deceleration

Question 30

Define early deceleration. Is it physiological or pathological?

Answer 30

Early decelerations start when the uterine contraction begins and recover when uterine contraction stops.

Physiological

Question 31

What is the pathophysiology of early deceleration?

Answer 31

Due to increased fetal intracranial pressure causing increased vagal tone. It therefore quickly resolves once the uterine contraction ends and intracranial pressure reduces.

Question 32

What is shown? What is a cause?

Answer 32

Early deceleration - physiological due to increased fetal intracranial pressure causing increased vagal tone.

Question 33

Define variable deceleration. When are these usually seen?

Answer 33

Variable decelerations are observed as a rapid fall in baseline fetal heart rate with a variable recovery phase. Variable in their duration and may not have any relationship to uterine contractions.

Most often seen during labour and in patients’ with reduced amniotic fluid volume. Usually also caused by umbilical cord compression.

Question 34

What is the mechanims of variable deceleration in umbilical cord compression?

Answer 34

The mechanism is as follows:

1. The umbilical vein is often occluded first causing an acceleration of the fetal heart rate in response.
2. Then the umbilical artery is occluded causing a subsequent rapid deceleration.
3. When pressure on the cord is reduced another acceleration occurs and then the baseline rate returns.

Question 35

What are the accelerations before and after a deceleration called?

Answer 35

shoulders of deceleration

Question 36

What do shoulders of deceleration indicate?

Answer 36

Indicates the fetus is not yet hypoxic and is adapting to the reduced blood flow. Variable decelerations can sometimes resolve if the mother changes position. The presence of persistent variable decelerations indicates the need for close monitoring.

Variable decelerations without the shoulders are more worrying, as it suggests the fetus is becoming hypoxic.

Question 37

What is shown? What is a cause?

Answer 37

Variable deceleration - umbilical cord compression, reduced amniotic fluid volume

Question 38

Define late deceleration.

Answer 38

Late decelerations begin at the peak of the uterine contraction and recover after the contraction ends.

Question 39

What is the pathophysiology of late decelerations?

Answer 39

This type of deceleration indicates there is insufficient blood flow to the uterus and placenta. As a result, blood flow to the fetus is significantly reduced causing fetal hypoxia and acidosis.

Question 40

What are the causes of reduced uteroplacental blood flow?

Answer 40

• Maternal hypotension
• Pre-eclampsia
• Uterine hyperstimulation

Question 41

What is shown?

Answer 41

Late deceleration

Question 42

Define prolonged deceleration. When is it non-reassuring vs abnormal?

Answer 42

A prolonged deceleration is defined as a deceleration that lasts more than 2 minutes:

• If it lasts between 2-3 minutes it is classed as non-reassuring.
• If it lasts longer than 3 minutes it is immediately classed as abnormal.

Question 43

What is shown?

Answer 43

Prolonged deceleration

Question 44

What is this CTG pattern? What does it indicate?

Answer 44

• Severe fetal hypoxia
• Severe fetal anaemia
• Fetal/maternal haemorrhage

Question 45

Define sinusoidal pattern CTG.

Answer 45

Rare, but very concerning as it is associated with high rates of fetal morbidity and mortality

A sinusoidal CTG pattern has the following characteristics:

• A smooth, regular, wave-like pattern
• Frequency of around 2-5 cycles a minute
• Stable baseline rate around 120-160bpm
• No beat to beat variability

Question 46

What are the causes of sinusoidal pattern CTGs?

Answer 46

A sinusoidal pattern usually indicates one or more of the following:

• Severe fetal hypoxia
• Severe fetal anaemia
• Fetal/maternal haemorrhage

Question 47

What are the CTG features classified as non-reassuring?

Answer 47

Question 48

What are the CTG features classified as abnormal/pathological?

Answer 48

Question 49

What is a biphasic shape deceleration?

Answer 49

W shape - no shoulders

Question 50

What information shoulf you have to reliably assess fetal growth?

Answer 50

Previous scans, at least 2 weeks apart, to determine rate of growth

Pattern of ‘smallness’ i.e. information about the AC and HC

Customisation of fetal growth charts to assess for constitutional non-pathological determinants of fetal growth

Question 51

List some indications for growth scanning.

Answer 51

Pre-conception:

• BMI >35
• Epilepsy (every 4 weeks from 28-36 weeks)
• Diabetes (every 4 weeks from 28-36 weeks)
• Chronic hypertension (every 4 weeks from 28-32 weeks)

Pregnancy related:

• Gestational diabetes (every 4 weeks from 28-36 weeks)
• Multiple pregnancy (from ~20 weeks gestation every 2-4 weeks depending on chorionicity and amnionicity)
• Gestational hypertension (every 2-4 weeks)
• Pre-eclampsia (every 2 weeks)
• IUGR (every 2 weeks)
• Placental abruption which settles (weekly)

Question 52

How is the growth measured on USS at different gestations?

Answer 52

• Crown–rump length (CRL) is used up to 13 weeks + 6 days
• Head circumference is used from 14 to 20 weeks’

Gestational age cannot be accurately calculated by ultrasound after 20 weeks’ gestation because of the wider range of normal values of AC and HC around the mean.

Question 53

How does the pattern of ‘smallness’ help identify the type of fetal growth?

Answer 53

Types of growth restriction :

1. Symmetrical
2. Asymmetrical - asymmetry between head measures (BPD, HC) and AC can be identified in:
   
   • FGR = where a brain-sparing effect will result in a relatively large HC compared with the A.
   • Diabetic pregnancy = where the abdomen is disproportionately large due to the effects of insulin on the fetal liver and fat stores.

NB: in normal growth restriction the abdomen (>30% reduction = FGR) will stop enlarging before the head which is ‘spared’.

Question 54

What does this pattern of growth restriction indicate?

Answer 54

Note that HC remains above 5th centile while the AC falls below 5th centile = case of _asymmetric FGR with
head sparing._

Question 55

What are some ‘at booking’ major risk factors for SGA?

Answer 55

• Previous history of SGA or stillbirth
• Heavy smoking
• Cocaine usage
• Heavy daily exercise
• Maternal illness, e.g. diabetes
• Parental SGA