[37] Intrapartum Assessment of Fetal Wellbeing

Question 1

What is intra-partum fetal monitoring?

Answer 1

The monitoring used immediately preceding or during childbirth

Question 2

What suggests the possibility of fetal hypoxia?

Answer 2

• Changes in fetal HR

- Meconium-stained liquor

Question 3

Can changes in fetal HR and meconium-stained liquor occur in normal labour?

Answer 3

Yes

Question 4

What might a reduction in fetal movements indicate?

Answer 4

Fetal jeopardy

Question 5

What might cessation in fetal movements indicate?

Answer 5

Fetal death

Question 6

What things can be used to assess fetal wellbeing?

Answer 6

• Meconium
• Intermittent auscultation
• Fetal cardiotocography
• Fetal scalp blood sampling

Question 7

What is meconium?

Answer 7

A dark green liquid normally passed by a newborn baby

Question 8

What does meconium contain?

Answer 8

• Mucus
• Bile
• Epithelial cells

Question 9

What can sometimes happen with meconium?

Answer 9

It can be passed when the baby is still in the womb, staining the amniotic fluid

Question 10

What variation is there in meconium in the liquor?

Answer 10

Can very from very light to heavy staining

Question 11

When is meconium staining in the liquor considered significant?

Answer 11

If dark green or black, with thick, tenacious appearance

Question 12

What is meconium stained liquor considered to be a sign of?

Answer 12

Fetal distress

Question 13

What is the problem with passing meconium whilst still in utero?

Answer 13

Components of the meconium, especially bile salts and enzymes, can cause serious complications if they are inhaled by the fetus at any stage of labour

Question 14

What can be caused by inhalation of meconium by the baby?

Answer 14

Meconium aspiration syndrome

Question 15

What pathological mechanisms participate in meconium aspiration syndrome?

Answer 15

• Airway obstruction
• Surfactant dysfunction
• Inflammation
• Lung oedema
• Pulmonary vasoconstriction
• Bronchoconstriction

Question 16

What % of infants in the developed world are born with meconium-stained liquor?

Answer 16

8-25%

Question 17

What % of live births does meconium aspiration syndrome occur in?

Answer 17

1-3%

Question 18

What are the risk factors for passing meconium in utero?

Answer 18

• Placental insufficiency
• Maternal hypertension and pre-eclampsia
• Oligohydraminos
• Smoking
• Cocaine abuse
• Increased maternal age

Question 19

What should be done if significant meconium staining is noted in labour?

Answer 19

Should be continuous electrical fetal monitoring

Question 20

What should be done if there is significant meconium staining noted in labour, and signs of fetal distress?

Answer 20

A fetal blood sample should be obtained

Question 21

What should be done at delivery if there is meconium stained liquor, and the neonate is in good condition?

Answer 21

There should be no suction, and the baby should be observed for signs of respiratory distress in the first hour of life, the second hour of life, and then 2 hourly until 12 hours old

Question 22

How is it defined that the fetus is in good condition at delivery?

Answer 22

Apgar score >5

Question 23

What should be done at delivery if there is blood or any lumps of meconium in the oropharynx?

Answer 23

Suction should be used in the upper airways

Question 24

What should be done at delivery if there is meconium stained liquor, and the neonate is unwell?

Answer 24

Follow guidelines for meconium aspiration

Question 25

What is intermittent auscultation used for?

Answer 25

Monitoring of FHR

Question 26

How often should FHR be monitored in the first stage of labour?

Answer 26

Every 15 minutes for a period of 1 minute

Question 27

When should the FHR be checked in the first stage of labour?

Answer 27

Soon after a contraction

Question 28

How is intermittent auscultation of FHR performed?

Answer 28

Using a handheld Doppler ultrasound transducer or Pinard fetal stethoscope

Question 29

How often is the FHR monitored during the second stage of labour?

Answer 29

Every 5 minutes, or every other contractions

Question 30

How are contractions monitored in labour?

Answer 30

By manual palpation over a period of 10 minutes

Question 31

What can manual palpation of contractions over a period of 10 minutes determine?

Answer 31

Frequency and duration

Question 32

What can the indications for the use of continuous electrical fetal monitoring be divided into?

Answer 32

• Maternal

- Fetal

Question 33

What are the maternal indications for the use of continuous electrical fetal monitoring?

Answer 33

• Previous C-section
• Pre-eclampsia
• Post-term pregnancy
• Prolonged rupture of membranes
• Induced labour
• Diabetes
• Antepartum haemorrhage
• Other maternal medical disease

Question 34

What are the fetal indications for the use of continuous electrical fetal monitoring?

Answer 34

• Fetal growth restriction
• Prematurity
• Oligohydraminos
• Abnormal Doppler artery velocimetry
• Multiple pregnancy
• Meconium-stained liquor
• Breech presentation

Question 35

What does cardiotocography enable?

Answer 35

Continuous monitoring of the fetal HR, and the frequency and duration of uterine contractions

Question 36

How is the FHR determined in CTG?

Answer 36

Usually using a Doppler ultrasound transducer

Question 37

Where is the Doppler ultrasound transducer placed for CTG monitoring?

Answer 37

Applied externally to maternal abdomen

Question 38

How is uterine activity usually recorded for CTG monitoring?

Answer 38

Using a pressure transducer

Question 39

Where is the pressure transducer applied for CTG monitoring?

Answer 39

Over the anterior abdominal wall, between the fundus and the umbilicus

Question 40

Other than using a pressure transducer, how can uterine activity be measured?

Answer 40

By inserting a fluid-filled catheter or pressure sensor into the uterine cavity through the cervical canal

Question 41

What is the advantage of external tocography?

Answer 41

It gives an accurate measurement of the frequency and duration

Question 42

What is the limitation of external tocography?

Answer 42

It only gives relative information of intrauterine pressure

Question 43

What does accurate measurements of intrauterine pressure require?

Answer 43

Intrauterine catheter or transducer

Question 44

Why are intrauterine catheters and transducers not routinely used to measure uterine pressure in most centres?

Answer 44

Lack of evidence about clinical benefit

Question 45

What is the normal FHR?

Answer 45

100-160 BPM

Question 46

What is meant by baseline variability?

Answer 46

The FHR exhibits variation from the baseline lol

Question 47

What does baseline variability record?

Answer 47

Oscillations of the heart rate around the baseline heart rate

Question 48

How much is baseline variability?

Answer 48

5-25bpm

Question 49

When is baseline variability reduced physiologically?

Answer 49

During the fetal sleep phase

Question 50

When can baseline variability be reduced pathologically?

Answer 50

• Hypoxia
• Infection
• Medication

Question 51

What is classified as an abnormal baseline variability?

Answer 51

Variability >5bpm for >90 minutes

Question 52

What might an abnormal baseline variability indicate?

Answer 52

Fetal jeopardy

Question 53

What are accelerations defined as?

Answer 53

Transient, abrupt increases in heart rate of more than 15 bpm for more than 15 seconds

Question 54

What are accelerations associated with?

Answer 54

Fetal movements

Question 55

What are accelerations a reflection of?

Answer 55

Activity of the somatic nervous system

Question 56

What are accelerations a sign of?

Answer 56

Reassuring sign of good fetal health

Question 57

What are decelerations defined as?

Answer 57

A decrease in heart rate of more than 15bpm for more than 15 seconds

Question 58

What defines the different patterns of decelerations?

Answer 58

Their relationship to uterine contractions and their intensity

Question 59

What are early decelerations synchronous with?

Answer 59

Uterine contraction

Question 60

When does the nadir (lowest point) occur with early decelerations?

Answer 60

At the peak of the contraction

Question 61

How much does the HR decrease in early decelerations?

Answer 61

Generally less than 40 bpm

Question 62

What are early decelerations due to?

Answer 62

Generally due to head compression

Question 63

Are early decelerations considered to be physiological?

Answer 63

Yes

Question 64

When are early decelerations seen?

Answer 64

In the late first and second stage of labour

Question 65

Describe late decelerations

Answer 65

The onset of slowing of HR occurs well after the contraction is established, and does not return to normal baseline rate until at least 20 seconds after the contraction is completed

Question 66

What are late decelerations due to?

Answer 66

Placental insufficiency

Question 67

What might late decelerations be indicative of?

Answer 67

Fetal hypoxia

Question 68

When might late decelerations be indicative of fetal hypoxia?

Answer 68

When accompanied by a rise in the baseline rate and reduction in baseline variability

Question 69

In what respects do variable decelerations variable?

Answer 69

Timing and amplitude

Question 70

Describe variable decelerations

Answer 70

They have a initial slight transitory rise in the baseline rate, followed by a precipitous fall followed by quick recovery to the baseline and slightly beyond

Question 71

How much does the heart rate fall by with variable decelerations?

Answer 71

Usually at least 40BPM

Question 72

What causes variable decelerations?

Answer 72

Cord compression

Question 73

What is the result of variable decelerations being caused by cord compression?

Answer 73

It varies with each contraction, giving rise to variable shapes, sizes, and timings of decelerations

Question 74

What are variable decelerations considered to be?

Answer 74

Non-reassuring features in a CTG trace

Question 75

What features of variable decelerations suggest worsening hypoxia?

Answer 75

• Increase in depth and duration of decelerations
• Rise in baseline rate
• Reduction in baseline variability

Question 76

What are atypical variable decelerations?

Answer 76

Additional changes to simple variable decelerations in the form of slow recovery to baseline rate or a combined variable followed immediately by late decelerations

Question 77

What are atypical variable decelerations considered to be?

Answer 77

Abnormal features

Question 78

What can FHR trace features be classified into?

Answer 78

• Reassuring
• Non-reassuring
• Abnormal

Question 79

What is the classification of FHR traces based on?

Answer 79

The classification of the features found on it

Question 80

What can FHR traces be classified as overall?

Answer 80

• Normal
• Suspicious
• Pathological

Question 81

What are reassuring features on FHR trace?

Answer 81

• Baseline 110-160bpm
• Variability 5 or more bpm
• No decelerations
• Accelerations present

Question 82

What are non-reassuring features on FHR trace?

Answer 82

• 100-109 or 161-180 bpm
• Variability <5 for 40-90 minutes
• Typical variable decelerations with over 50% of contractions, occuring for over 90 minutes, or simple prolonged deceleration for up to 3 minutes

Question 83

What are abnormal features on FHR trace?

Answer 83

• <100 or >180 bpm, or sinusoidal pattern
• Variability of <5 for 90 minutes
• Atypical variable decelerations with over 50% of contractions or late decelerations, both for over 30 minutes, or single prolonged deceleration for more than 3 minutes

Question 84

What is classified as a normal FHR trace?

Answer 84

All features are classified as reassuring

Question 85

What should be done when a normal FHR is determined?

Answer 85

Continue intermittent or continuous monitoring, as indicated by risk factors

Question 86

What is classified as a suspicious FHR trace?

Answer 86

FHR trace with one feature classified as non-reassuring, and the remaining as reassuring

Question 87

What should you do when a suspicious FHR trace is determined?

Answer 87

• Exclude factors indicating the need for immediate delivery
• Treat dehydration, hyperstimulation, hypotension, and change position
• Continue CTG

Question 88

What things that would require immediate delivery should be excluded when there is a suspicious FHR trace?

Answer 88

• Cord prolapse
• Uterine rupture
• Abruption

Question 89

What is classified as a pathological FHR trace?

Answer 89

FHR trace with two or more features classified as non-reassuring, or one or more classified as abnormal

Question 90

What should you do when a pathological FHR trace is found?

Answer 90

• Exclude factors indicating need for immediate delivery
• Treat dehydration or hyperstimulation
• Change position
• Deliver if prolonged bradycardia
• Either obtain further information on fetal status by fetal blood scalp sampling, or deliver

Question 91

What is fetal scalp blood sampling?

Answer 91

When fetal blood is obtained directly from the scalp through an amnioscope

Question 92

When is fetal scalp blood sampling used?

Answer 92

When abnormalities of fetal heart rate occur in labour

Question 93

What is the purpose of fetal scalp blood sampling?

Answer 93

To determine fetal acid-base balance

Question 94

How should a sample be obtained for fetal scalp blood sampling?

Answer 94

The amnioscope is inserted through the cervix, which must be dilated to at least 2cm. The mother lies in the left lateral position. A small stab incision is made in the fetal scalp, and blood is collected into a heparinised capillary tube

Question 95

Why should the mother lie in left lateral position when obtaining a sample for fetal scalp bloood sampling?

Answer 95

To avoid the risk of inducing supine hypotension

Question 96

How is the sample collected for fetal scalp blood sampling analysed?

Answer 96

In a blood gas analyser

Question 97

What is the normal pH of fetal blood?

Answer 97

7.25-7.35

Question 98

What does the management of abnormal fetal blood pH depend on?

Answer 98

The degree of abnormality

Question 99

What does a fetal blood pH of 7.2-7.25 in the first stage of labour indicate?

Answer 99

Mild acidosis

Question 100

How should a fetus with mild acidosis be managed?

Answer 100

Sampling should be repeated within the next 30 minutes

Question 101

How should a fetal blood pH of <7.2 be managed?

Answer 101

Delivery is recommended, unless spontaneous delivery is imminent

Question 102

What should be done if there is a sufficient sample of fetal blood?

Answer 102

A full blood gas analysis

Question 103

Why should a full blood gas analysis be performed if there is sufficient sample of fetal blood?

Answer 103

Because a raised pCO2 with normal base excess may indicate respiratory acidosis

Question 104

Why is it important to know if the fetus has respiratory acidosis?

Answer 104

It may correct itself if the posture of the mother is changed