FINAL: Fetal Monitoring

Question 1

What does moderate fetal heart rate variability indicate?

a) Fetal hypoxia
b) Normal fetal acid-base balance
c) Uteroplacental insufficiency
d) Fetal bradycardia

Answer 1

b) Normal fetal acid-base balance

Rationale: Moderate fetal heart rate variability (6–25 bpm) reflects adequate fetal oxygenation and a normal autonomic nervous system response, indicating a healthy acid-base balance.

Question 2

Which fetal monitoring finding is most reassuring?

a) Minimal variability with late decelerations
b) Accelerations of 15 bpm lasting at least 15 seconds
c) Marked variability with early decelerations
d) Variable decelerations without recovery

Answer 2

b) Accelerations of 15 bpm lasting at least 15 seconds

Rationale: Accelerations signify fetal well-being, reflecting an intact central nervous system and adequate oxygenation.

Question 3

Which deceleration type is associated with uteroplacental insufficiency?

a) Late decelerations
b) Early decelerations
c) Variable decelerations
d) Prolonged decelerations

Answer 3

a) Late decelerations

Rationale: Late decelerations occur after the contraction peak and are caused by uteroplacental insufficiency, indicating fetal hypoxia.

Question 4

What is the primary purpose of intrauterine pressure catheters (IUPC)?

a) To monitor fetal heart rate variability
b) To detect uteroplacental insufficiency
c) To identify fetal hypoxia
d) To evaluate uterine contraction intensity and resting tone

Answer 4

d) To evaluate uterine contraction intensity and resting tone

Rationale: IUPCs directly measure uterine contraction pressure and resting tone, providing more accurate data than external monitoring (TOCO).

Question 5

Which fetal heart rate pattern requires immediate intervention?

a) Accelerations lasting longer than 15 seconds
b) Minimal variability with recurrent late decelerations
c) Moderate variability with early decelerations
d) Marked variability for less than 5 minutes

Answer 5

b) Minimal variability with recurrent late decelerations

Rationale: Minimal variability combined with recurrent late decelerations suggests fetal hypoxia and requires immediate intervention to improve oxygenation.

Question 6

What is the appropriate intervention for variable decelerations caused by cord compression?

a) Administer oxygen at 10 L/min via face mask

b) Perform a vaginal examination to evaluate for prolapsed cord

c) Increase the Pitocin infusion rate

d) Reposition the patient to relieve cord compression

Answer 6

d) Reposition the patient to relieve cord compression

Rationale: Repositioning can alleviate pressure on the umbilical cord, resolving variable decelerations.

Question 7

Which of the following is an indication to stop Pitocin during labor?

a) Uterine contractions every 5 minutes

b) Baseline fetal heart rate of 130 bpm

c) Recurrent late decelerations or uterine tachysystole

d) Presence of early decelerations

Answer 7

c) Recurrent late decelerations or uterine tachysystole

Rationale: Pitocin should be stopped if there are signs of fetal distress, such as recurrent late decelerations, or uterine tachysystole to reduce the risk of hypoxia.

Question 8

What is the frequency of uterine contractions measured in?

a) Seconds from start to end of a contraction
b) Minutes from the start of one contraction to the start of the next
c) Amplitude of uterine pressure in mmHg
d) Time from the peak of one contraction to the peak of the next

Answer 8

b) Minutes from the start of one contraction to the start of the next

Rationale: Uterine contraction frequency is measured in minutes from the beginning of one contraction to the beginning of the next.

Question 9

*Which fetal heart rate variability level is associated with fetal distress?

a) Moderate variability
b) Minimal variability lasting >20 minutes
c) Marked variability lasting >30 minutes
d) Absent variability

Answer 9

d) Absent variability

Rationale: Absent variability is a non-reassuring sign and indicates potential fetal hypoxia or acidemia.

Question 10

What is the purpose of uterine resuscitation interventions during labor?

a) To increase uterine contractions
b) To reduce maternal blood pressure
c) To improve placental perfusion and fetal oxygenation
d) To accelerate fetal descent

Answer 10

c) To improve placental perfusion and fetal oxygenation

Rationale: Uterine resuscitation interventions, such as repositioning and oxygen administration, aim to enhance placental perfusion and fetal oxygenation.

Question 11

What is a key feature of early decelerations on fetal monitoring?

a) They occur after the peak of a contraction.
b) They mirror the contraction in timing and shape.
c) They are caused by umbilical cord compression.
d) They require immediate emergency intervention.

Answer 11

b) They mirror the contraction in timing and shape.

Rationale: Early decelerations mirror the contraction and are caused by fetal head compression, which is typically benign.

Question 12

Which intervention is recommended for uterine tachysystole? (Select all that apply)

a) Stop Pitocin infusion
b) Administer a tocolytic, such as terbutaline
c) Increase IV fluid rate
d) Apply fundal pressure
e) Perform an amnioinfusion

Answer 12

a) Stop Pitocin infusion
b) Administer a tocolytic, such as terbutaline
c) Increase IV fluid rate

Rationale: Uterine tachysystole is managed by stopping Pitocin, administering a tocolytic to reduce contraction frequency, and increasing IV fluids to improve uteroplacental perfusion. Fundal pressure and amnioinfusion are not indicated in this situation.

Question 13

A patient is in active labor with continuous external fetal monitoring. The nurse observes no variability in the fetal heart rate tracing over a 20-minute period. What is the priority nursing action?

a) Administer oxygen via mask at 10 L/min.

b) Notify the provider immediately.

c) Reassess the variability in 30 minutes.

d) Prepare the patient for delivery.

Answer 13

b) Notify the provider immediately.

Rationale: Absent variability is a sign of possible fetal hypoxia or distress and requires immediate evaluation by the provider.

Question 14

A 38-week pregnant patient is undergoing a non-stress test (NST). Two accelerations of 18 bpm lasting 20 seconds each are noted within 15 minutes. How should the nurse interpret this NST?

a) Non-reactive

b) Reactive

c) Inconclusive

d) Abnormal

Answer 14

b) Reactive

Rationale: A reactive NST requires two accelerations of at least 15 bpm lasting 15 seconds in a 20-40 minute period.

Question 15

The fetal monitor shows abrupt drops in FHR unrelated to uterine contractions. What is the likely cause of the decelerations?

a) Head compression

b) Placental insufficiency

c) Umbilical cord compression

d) Maternal hypotension

Answer 15

c) Umbilical cord compression

Rationale: Variable decelerations are caused by cord compression, which disrupts blood flow to the fetus.

Question 16

A nurse notices that the FHR decelerates after the peak of contractions in a patient on oxytocin. What is the most appropriate intervention?

a) Increase IV fluids.

b) Stop oxytocin infusion.

c) Notify the provider immediately.

d) Administer a tocolytic.

Answer 16

b) Stop oxytocin infusion.

Rationale: Late decelerations indicate placental insufficiency, often exacerbated by excessive uterine activity. Stopping oxytocin reduces contraction frequency.

Question 17

A patient on Pitocin has 6 contractions in 10 minutes, with each contraction lasting over 120 seconds. What should the nurse do first?

a) Administer oxygen at 10 L/min.

b) Turn the patient to a lateral position.

c) Notify the provider immediately.

d) Stop the Pitocin infusion.

Answer 17

d) Stop the Pitocin infusion.

Rationale: Tachysystole can compromise fetal oxygenation. Stopping Pitocin is the first step to decrease contraction frequency.

Question 18

The FHR tracing shows a consistent range of 170 bpm. What is this finding called, and what should the nurse do?

a) Fetal bradycardia; administer oxygen.

b) Fetal tachycardia; investigate maternal temperature.

c) Normal baseline; continue monitoring.

d) Tachysystole; reduce Pitocin.

Answer 18

b) Fetal tachycardia; investigate maternal temperature.

Rationale: Fetal tachycardia (>160 bpm) can indicate maternal fever or infection.

Question 19

The FHR tracing shows fluctuations of greater than 25 bpm from baseline. What should the nurse assess first?

a) Maternal oxygenation and hydration.

b) Uterine contraction strength.

c) Maternal blood pressure.

d) The external monitor placement.

Answer 19

a) Maternal oxygenation and hydration.

Rationale: Marked variability may indicate fetal hypoxia, which can be influenced by maternal oxygen and fluid levels.

Question 20

A patient’s FHR tracing shows a deceleration below baseline lasting over 3 minutes. What is the priority nursing action?

a) Reposition the patient to the left lateral position.

b) Increase the Pitocin infusion rate.

c) Perform an amnioinfusion.

d) Prepare for emergency delivery.

Answer 20

d) Prepare for emergency delivery.

Rationale: Prolonged decelerations indicate severe fetal compromise and often necessitate immediate delivery.

Question 21

An IUPC is placed for a patient with ruptured membranes. The nurse observes persistent decelerations. What action should the nurse take next?

a) Notify the provider.

b) Perform an amnioinfusion.

c) Increase Pitocin infusion.

d) Assess maternal temperature.

Answer 21

b) Perform an amnioinfusion.

Rationale: Amnioinfusion can relieve umbilical cord compression causing decelerations.

Question 22

A patient’s FHR tracing shows late decelerations. What is the likely cause?

a) Cord compression

b) Head compression

c) Oxygen compromise

d) Placental insufficiency

Answer 22

d) Placental insufficiency

Rationale: Late decelerations are associated with placental insufficiency and require immediate intervention.

Question 23

A patient on Pitocin has moderate variability and accelerations on the monitor. What should the nurse do?

a) Stop the Pitocin infusion.

b) Continue the Pitocin infusion as prescribed.

c) Decrease the Pitocin infusion rate.

d) Administer oxygen at 10 L/min.

Answer 23

b) Continue the Pitocin infusion as prescribed.

Rationale: Moderate variability and accelerations indicate normal fetal oxygenation and labor progression.

Question 24

A patient with late decelerations is repositioned to the left lateral position without improvement. What is the next intervention?

a) Administer oxygen at 10 L/min.

b) Stop Pitocin.

c) Increase IV fluids.

d) Notify the provider.

Answer 24

c) Increase IV fluids

Rationale: Increasing IV fluids can improve placental perfusion and fetal oxygenation.

Question 25

A neonate is delivered after a Category 3 FHR tracing. The provider orders cord blood gases.
What is the purpose of this test?

a) To confirm neonatal infection.

b) To assess acid/base status at delivery.

c) To evaluate fetal lung maturity.

d) To determine maternal-fetal blood mixing.

Answer 25

b) To assess acid/base status at delivery.

Rationale: Cord blood gas analysis determines fetal oxygenation and acid/base balance, which helps assess for hypoxic events.

Question 26

A nurse notices minimal variability on the fetal monitor. Which factors may contribute to minimal variability? (Select all that apply.)

• a) Fetal sleep cycle
• b) Maternal hypotension
• c) Maternal fever
• d) Umbilical cord compression
• e) Narcotic administration

Answer 26

a) Fetal sleep cycle, b) Maternal hypotension, e) Narcotic administration

Rationale: Minimal variability can result from temporary factors like fetal sleep cycles, maternal hypotension, or medications. Maternal fever and cord compression usually cause other abnormalities.

Question 27

A patient’s monitor shows late decelerations. What are potential causes of late decelerations? (Select all that apply.)

• a) Maternal hypotension
• b) Placental insufficiency
• c) Fetal head compression
• d) Tachysystole
• e) Cord prolapse

Answer 27

a) Maternal hypotension, b) Placental insufficiency, d) Tachysystole

Rationale: Late decelerations occur due to decreased oxygenation from placental insufficiency, maternal hypotension, or uterine hyperactivity. Head compression causes early decelerations, and cord prolapse causes variable decelerations.

Question 28

A nurse is assessing a patient who is 39 weeks pregnant and in active labor. The fetal heart rate (FHR) tracing shows moderate variability, a baseline of 140 bpm, and accelerations noted with contractions. What is the most appropriate nursing action?

A. Apply oxygen via facemask.
B. Continue to monitor the fetal heart rate.
C. Reposition the patient to the left side.
D. Prepare for emergency delivery.

Answer 28

B. Continue to monitor the fetal heart rate.

Rationale: The FHR tracing is reassuring because it shows moderate variability and accelerations, indicating fetal well-being. No interventions are needed beyond continued monitoring.

Question 29

A nurse observes a late deceleration on the fetal heart monitor. What is the first intervention the nurse should perform?

A. Place the patient in the left lateral position.
B. Administer oxygen via non-rebreather mask at 10 L/min.
C. Increase the IV fluid rate.
D. Stop oxytocin (Pitocin) infusion.

Answer 29

B. Administer oxygen via non-rebreather mask at 10 L/min.

Rationale: Late decelerations indicate uteroplacental insufficiency, requiring immediate intervention. Repositioning the patient to the left side improves blood flow to the placenta.

Question 30

A nurse is reviewing fetal heart rate variability. Which descriptions indicate reassuring fetal heart rate (FHR) patterns? (SATA)

A. Absent variability
B. Minimal variability
C. Moderate variability
D. Marked variability
E. Accelerations present

Answer 30

C. Moderate variability
E. Accelerations present

Rationale: Moderate variability (C) and accelerations (E) are reassuring signs of fetal well-being, indicating intact fetal oxygenation and autonomic nervous system function. Absent (A) and minimal (B) variability can indicate fetal distress, and marked variability (D) can suggest hypoxia or excessive fetal movement.

Question 31

A patient receiving oxytocin for labor induction experiences contractions occurring every 1 minute, lasting 90 seconds, with persistent late decelerations on the fetal heart rate monitor. What is the priority nursing action?

A. Increase IV fluids.
B. Stop the oxytocin infusion.
C. Apply oxygen at 10 L/min.
D. Reposition the patient.

Answer 31

B. Stop the oxytocin infusion.

Rationale: Stopping oxytocin is the priority action to reduce uterine tachysystole, which is causing fetal distress (late decelerations).

Question 32

Which fetal heart rate characteristic is the most concerning and requires immediate intervention?

A. Moderate variability with accelerations
B. Early decelerations with normal variability
C. Variable decelerations with a quick return to baseline
D. Late decelerations with minimal variability

Answer 32

D. Late decelerations with minimal variability

Rationale: Late decelerations with minimal variability suggest uteroplacental insufficiency and possible fetal hypoxia, requiring intervention.

Question 33

A nurse observes variable decelerations on the fetal heart monitor. What is the most appropriate intervention?

A. Apply oxygen at 10 L/min.
B. Increase IV fluids.
C. Reposition the patient.
D. Notify the provider immediately.

Answer 33

C. Reposition the patient.

Rationale: Variable decelerations are caused by cord compression, which can often be relieved by repositioning the patient. If repositioning does not resolve the issue, oxygen (A) and IV fluids (B) may be used, and the provider should be notified (D) if the decelerations persist.

Question 34

Which uterine resuscitation interventions are included in the LIONS mnemonic? (SATA)

A. Left lateral position
B. Increase IV fluids
C. Oxygen administration
D. Notify the provider
E. Stop oxytocin

Answer 34

all of the choices are correct

Question 35

What defines uterine tachysystole?

A. More than 5 contractions in 10 minutes
B. Contractions lasting longer than 90 seconds
C. FHR below 110 bpm
D. Lack of fetal movement

Answer 35

A. More than 5 contractions in 10 minutes

Rationale: Uterine tachysystole is defined as more than 5 contractions in 10 minutes, which can lead to fetal distress.

Question 36

A patient at 38 weeks is experiencing early decelerations with contractions. What is the most appropriate response by the nurse?

A. Reposition the patient.
B. Prepare for emergency delivery.
C. Apply oxygen at 10 L/min.
D. Document and continue monitoring.

Answer 36

D. Document and continue monitoring.

Rationale: Early decelerations are caused by head compression during contractions and are benign. No intervention is needed beyond documentation and monitoring.

Question 37

What is the primary cause of late decelerations?

A. Umbilical cord compression
B. Head compression
C. Uteroplacental insufficiency
D. Maternal fever

Answer 37

C. Uteroplacental insufficiency

Rationale: Late decelerations result from uteroplacental insufficiency, which reduces oxygen supply to the fetus.

Question 38

Which contraction pattern suggests a need for intervention?

A. Frequency every 2-3 minutes, lasting 45-60 seconds
B. Frequency every 1-1.5 minutes, lasting 90 seconds
C. Frequency every 4-5 minutes, lasting 50 seconds
D. Frequency every 3 minutes, lasting 60 seconds

Answer 38

B. Frequency every 1-1.5 minutes, lasting 90 seconds

Rationale: Contractions occurring every 1-1.5 minutes, lasting 90 seconds, indicate tachysystole, which can compromise fetal oxygenation. (A), (C), and (D) are normal patterns.

Question 39

A nurse notes a sinusoidal fetal heart pattern on the monitor. What is the priority action?

A. Continue monitoring.
B. Increase IV fluids and administer oxygen.
C. Reposition the patient.
D. Notify the provider immediately.

Answer 39

D. Notify the provider immediately.

Rationale: A sinusoidal pattern is a sign of severe fetal anemia or hypoxia and requires immediate medical attention. Oxygen and fluids (B) may be used, but the provider must be notified urgently.

Question 40

A patient in labor has an FHR tracing that shows absent variability with recurrent late decelerations. What is the priority intervention?

A. Reposition the patient.
B. Administer IV fluids and oxygen.
C. Discontinue oxytocin.
D. Prepare for emergency delivery.

Answer 40

D. Prepare for emergency delivery.

Absent variability with late decelerations indicates severe fetal distress and hypoxia, requiring immediate intervention. Repositioning (A), IV fluids/oxygen (B), and stopping oxytocin (C) are important but do not correct the underlying cause quickly enough. Emergency delivery is needed.

Question 41

A patient at 35 weeks gestation is admitted with preterm labor. The nurse notes variable decelerations on the FHR tracing. What should the nurse do first?

A. Apply oxygen at 10 L/min.
B. Reposition the patient.
C. Notify the provider.
D. Prepare for an emergency C-section.

Answer 41

B. Reposition the patient.

Rationale: Variable decelerations indicate umbilical cord compression, which can often be relieved by changing the maternal position.

Question 42

Which of the following are causes of prolonged decelerations? (SATA)

A. Hypotension
B. Uterine tachysystole
C. Fetal movement
D. Cord compression
E. Maternal hypoxia

Answer 42

A. Hypotension
B. Uterine tachysystole
D. Cord compression
E. Maternal hypoxia

Rationale: Prolonged decelerations (>2 minutes but <10 minutes) indicate significant fetal distress. (A) Hypotension, (B) tachysystole, (D) cord compression, and (E) maternal hypoxia can cause this. (C) Fetal movement does not lead to prolonged decelerations.

Question 43

A nurse is monitoring a patient in active labor. The FHR baseline is 120 bpm, moderate variability, and no decelerations. What is the appropriate nursing action?

A. Administer oxygen.
B. Document findings and continue monitoring.
C. Reposition the patient.
D. Increase IV fluids.

Answer 43

B. Document findings and continue monitoring.

Rationale: A baseline of 120 bpm with moderate variability and no decelerations is reassuring. No intervention is needed other than continued monitoring.

Question 44

Which FHR pattern is most concerning and requires immediate action?

A. Minimal variability with accelerations
B. Early decelerations with moderate variability
C. Late decelerations with absent variability
D. Moderate variability with occasional variable decelerations

Answer 44

C. Late decelerations with absent variability

Rationale: Late decelerations with absent variability indicate severe fetal hypoxia and uteroplacental insufficiency, requiring urgent intervention.

Question 45

A patient in labor is receiving oxytocin and develops contractions every 90 seconds. The FHR tracing shows recurrent late decelerations. What is the priority nursing action?

A. Stop the oxytocin infusion.
B. Administer oxygen at 10 L/min.
C. Increase IV fluids.
D. Notify the provider.

Answer 45

A. Stop the oxytocin infusion.

Rationale: Stopping oxytocin is the priority intervention to reduce excessive uterine activity, which is causing late decelerations.

Question 46

What is the primary cause of variable decelerations?

A. Uteroplacental insufficiency
B. Head compression
C. Maternal fever
D. Cord compression

Answer 46

D. Cord compression

Rationale: Variable decelerations are caused by umbilical cord compression, which can often be relieved by maternal repositioning.

Question 47

Which interventions are appropriate for category II FHR tracings? (SATA)

A. Repositioning the patient
B. Administering oxygen
C. Stopping oxytocin
D. Preparing for immediate delivery
E. Increasing IV fluids

Answer 47

A. Repositioning the patient
B. Administering oxygen
C. Stopping oxytocin
E. Increasing IV fluids

Rationale: Category II tracings are indeterminate and require interventions to improve fetal oxygenation. Repositioning (A), oxygen (B), stopping oxytocin (C), and fluids (E) are appropriate. (D) Immediate delivery is not always necessary.

Question 48

A nurse observes sinusoidal FHR pattern on the monitor. This is most commonly associated with:

A. Maternal fever
B. Cord compression
C. Fetal anemia
D. Uterine tachysystole

Answer 48

C. Fetal anemia

Rationale: A sinusoidal pattern is a sign of severe fetal anemia or hypoxia. It requires immediate medical intervention.

Question 49

A patient at 39 weeks gestation is in labor. The FHR baseline is 160 bpm, with moderate variability and accelerations. However, contractions are occurring every 90 seconds, lasting 100 seconds. What is the priority intervention?

A. Continue monitoring.
B. Administer oxygen.
C. Stop oxytocin.
D. Increase IV fluids.

Answer 49

C. Stop oxytocin.

Rationale: Tachysystole (contractions too frequent) can lead to fetal hypoxia. The priority action is stopping oxytocin to allow fetal recovery.

Question 50

Which FHR pattern is reassuring?

A. Absent variability
B. Late decelerations
C. Moderate variability with accelerations
D. Prolonged decelerations

Answer 50

C. Moderate variability with accelerations

Rationale: Moderate variability and accelerations indicate fetal well-being. (A), (B), and (D) are concerning patterns.

Question 51

A nurse observes recurrent late decelerations on an FHR tracing despite repositioning and oxygen. What should the nurse anticipate next?

A. Prepare for emergency delivery.
B. Increase oxytocin.
C. Discontinue IV fluids.
D. Encourage the patient to push.

Answer 51

A. Prepare for emergency delivery.

Rationale: Recurrent late decelerations despite interventions indicate worsening fetal distress, requiring emergency delivery.

Question 52

Which factors can cause minimal FHR variability? (SATA)

A. Fetal sleep cycle
B. Fetal hypoxia
C. Maternal sedation
D. Uteroplacental insufficiency
E. Maternal dehydration

Answer 52

A. Fetal sleep cycle
B. Fetal hypoxia
C. Maternal sedation
D. Uteroplacental insufficiency

Rationale: Minimal variability can be caused by fetal sleep (A), hypoxia (B), sedation (C), or uteroplacental insufficiency (D). (E) Dehydration is not a direct cause.

Question 53

A nurse notes recurrent variable decelerations on the FHR monitor. After repositioning, the pattern persists. What is the next best action?

A. Apply oxygen
B. Stop oxytocin
C. Prepare for C-section
D. Perform amnioinfusion

Answer 53

D. Perform amnioinfusion

Rationale: If repositioning does not resolve variable decelerations, amnioinfusion can help relieve cord compression.