chapter 15 fetal assessment during labor

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The nurse caring for a laboring woman is aware that maternal cardiac output can be increased by: A. Change in position. B. Oxytocin administration. C. Regional anesthesia. D. Intravenous analgesic.

A (Change in position. Maternal supine hypotension syndrome is caused by the weight and pressure of the gravid uterus on the ascending vena cava when the woman is in a supine position. This reduces venous return to the woman's heart, as well as cardiac output, and subsequently reduces her blood pressure. The nurse can encourage the woman to change positions and avoid the supine position. Oxytocin administration may reduce maternal cardiac output. Regional anesthesia may reduce maternal cardiac output. Intravenous analgesic may reduce maternal cardiac output.)

On review of a fetal monitor tracing, the nurse notes that for several contractions, the fetal heart rate decelerates as a contraction begins and returns to baseline just before it ends. The nurse should: A. Describe the finding in the nurse's notes. B. Reposition the woman onto her side. C. Call the physician for instructions. D. Administer oxygen at 8 to 10 L/min with a tight face mask.

A (Describe the finding in the nurse's notes. An early deceleration pattern from head compression is described. No action other than documentation of the finding is required since this is an expected reaction to compression of the fetal head as it passes through the cervix. These actions would be implemented when non-reassuring or ominous changes are noted. These actions would be implemented when non-reassuring or ominous changes are noted. These actions would be implemented when non-reassuring or ominous changes are noted.)

The nurse caring for the laboring woman should understand that early decelerations are caused by: a. Altered fetal cerebral blood flow. b. Umbilical cord compression. c. Uteroplacental insufficiency. d. Spontaneous rupture of membranes.

A (Early decelerations are the fetus's response to fetal head compression. Variable decelerations are associated with umbilical cord compression. Late decelerations are associated with uteroplacental insufficiency. Spontaneous rupture of membranes has no bearing on the fetal heart rate unless the umbilical cord prolapses, which would result in variable or prolonged bradycardia.)

While evaluating an external monitor tracing of a woman in active labor, the nurse notes that the fetal heart rate (FHR) for five sequential contractions begins to decelerate late in the contraction, with the nadir of the decelerations occurring after the peak of the contraction. The nurse's first priority is to: a. Change the woman's position. b. Notify the care provider. c. Assist with amnioinfusion. d. Insert a scalp electrode.

A (Late decelerations may be caused by maternal supine hypotension syndrome. They usually are corrected when the woman turns on her side to displace the weight of the gravid uterus from the vena cava. If the fetus does not respond to primary nursing interventions for late decelerations, the nurse would continue with subsequent intrauterine resuscitation measures, including notifying the care provider. An amnioinfusion may be used to relieve pressure on an umbilical cord that has not prolapsed. The FHR pattern associated with this situation most likely reveals variable deceleration. A fetal scalp electrode would provide accurate data for evaluating the well-being of the fetus; however, this is not a nursing intervention that would alleviate late decelerations, nor is it the nurse's first priority.)

After monitoring the fetal heart activity, the nurse concludes that there is impaired fetal oxygenation. What had the nurse observed in the fetal monitor to come to this conclusion? Select all that apply. A. Increase in the fetal heart rate (FHR) to over 160 beats/min B. Early decelerations C. Moderate variability D. Late decelerations E. Occasional variable decelerations

A, D (Tachycardia (an increase in the FHR) is the early sign of fetal hypoxemia. Prolonged decelerations in FHR lasting for more than 2 minutes indicates the fetus is hypoxemic. Early decelerations, moderate variability, and occasional variable decelerations in the FHR are common observations during labor. These are normal findings and require no intervention.)

When assessing a fetal heart rate (FHR) tracing, the nurse notes a decrease in the baseline rate from 155 to 110. The rate of 110 persists for more than 10 minutes. The nurse could attribute this decrease in baseline to: A. Maternal hyperthyroidism. B. Initiation of epidural anesthesia that resulted in maternal hypotension. C. Maternal infection accompanied by fever. D. Alteration in maternal position from semirecumbent to lateral.

B (Initiation of epidural anesthesia that resulted in maternal hypotension. Hyperthyroidism would result in baseline tachycardia. Fetal bradycardia is the pattern described and results from the hypoxia that would occur when uteroplacental perfusion is reduced by maternal hypotension. The woman receiving epidural anesthesia needs to be well hydrated before and during induction of the anesthesia to maintain an adequate cardiac output and blood pressure. A maternal fever could cause fetal tachycardia. Assumption of a lateral position enhances placental perfusion and should result in a reassuring FHR pattern.)

The nurse providing care for the laboring woman realizes that variable fetal heart rate (FHR) decelerations are caused by: a. Altered fetal cerebral blood flow. b. Umbilical cord compression. c. Uteroplacental insufficiency. d. Fetal hypoxemia.

B (Variable decelerations can occur any time during the uterine contracting phase and are caused by compression of the umbilical cord. Altered fetal cerebral blood flow would result in early decelerations in the FHR. Uteroplacental insufficiency would result in late decelerations in the FHR. Fetal hypoxemia would result in tachycardia initially and then bradycardia if hypoxia continues.)

While monitoring the fetal heart rate (FHR), the nurse instructs the patient to change positions and lie in the knee-to-chest position. What is the reason for the nurse to give this instruction to the patient? A. Late decelerations in the FHR B. Variable decelerations in the FHR C.Early decelerations in the FHR D. Prolonged decelerations in the FHR

B (Variable decelerations in the FHR are usually caused by umbilical cord compression. The knee-to-chest position is useful for relieving cord compression, and thus the nurse should ask the patient to move into this position. Prolonged decelerations in the FHR are not affected by the mother's position. If the nurse finds late decelerations in the FHR, the nurse should ask the mother to lie in the lateral position. Early decelerations in the FHR are a normal finding, and no nursing intervention is required.)

After observing the electronic fetal monitor, a primary health care provider asks the nurse to conduct an electrocardiogram (ECG) of the fetus. What should the nurse assess before obtaining an ECG of the fetus? Select all that apply. A. Fetal lactate levels B. Placental membranes C. Cervical dilation D. Umbilical cord compression E. Frequency of uterine contractions

B, C (When performing the ECG of the fetus, the nurse should insert the electrode into the cervix to reach the fetus. Therefore the nurse should check if the cervix is dilated up to 3 cm and if the membranes are ruptured. This allows the nurse to reach the fetus's position. Lactate levels do not affect the ECG testing and thus need not be checked before the test. Umbilical cord compression or decreased frequency of UCs is not the required conditions for performing an ECG on the fetus.)

The nurse is assisting a pregnant patient in labor. What instructions should the nurse give to the patient to promote comfort? Select all that apply. A. "You should cough frequently." B. "Breathe with your mouth open." C. "Lie down in the lateral position." D. "Lie in the supine position in bed." E. "Lie in the semi-Fowler position."

B, C, E (The nurse helps the pregnant patient during labor. This includes teaching the patient relaxation techniques. The nurse teaches the patient to keep the mouth open during exhalation to allow air to easily leave the lungs. Placing the patient in a semi-Fowler or lateral position is helpful during labor. Therefore the nurse should instruct the patient to maintain a lateral or semi-Fowler position with a lateral tilt. Asking the patient to cough frequently would increase intraabdominal pressure of the patient and would make the patient uncomfortable. Having the patient lie down in a supine position during labor may cause orthostatic hypotension. Therefore the nurse should instruct the patient to lie down in a position other than supine.)

Which device can be used as a noninvasive way to assess the fetal heart rate (FHR) in a patient whose membranes are not ruptured? A. Tocotransducer B. Spiral electrode C. Ultrasound transducer D. Intrauterine pressure catheter (IUPC)

C (An ultrasound transducer is used to assess the FHR by an external mode of electronic fetal monitoring. It does not require membrane rupture and cervical dilation. A tocotransducer can be used to assess the uterine activity (UA) in a pregnant patient whose cervix is not sufficiently dilated, but it does not assess the FHR. Spiral electrode is used as an internal mode of electronic fetal monitoring to assess the FHR. It can be used only when the membranes are ruptured and the cervix is dilated during the intrapartum period. IUPC is used to assess uterine activity in internal mode. It can be used only when the membranes are ruptured and the cervix is dilated during the intrapartum period.)

Fetal bradycardia is most common during: a. Intraamniotic infection. b. Fetal anemia. c. Prolonged umbilical cord compression. d. Tocolytic treatment using terbutaline.

C (Fetal bradycardia can be considered a later sign of fetal hypoxia and is known to occur before fetal death. Bradycardia can result from placental transfer of drugs, prolonged compression of the umbilical cord, maternal hypothermia, and maternal hypotension. Intraamniotic infection, fetal anemia, and tocolytic treatment using terbutaline would most likely result in fetal tachycardia.)

The primary health care provider has administered general anesthesia to a patient who is scheduled for an elective cesarean section. What changes should the nurse observe in the fetal heart rate (FHR) after the administration of general anesthesia? A. Decrease B. Increase C. Minimal variability D. Moderate variability

C (It is necessary to monitor the FHR in the pregnant patient who is given general anesthesia. General anesthesia usually causes minimal variability or no change in the FHR. Tachycardia is caused by fetal hypoxemia, whereas bradycardia is caused from a structural defect in the fetal heart. Moderate variability in the FHR indicates normal fetal activity.)

The nurse caring for the woman in labor should understand that maternal hypotension can result in: a. Early decelerations. b. Fetal dysrhythmias. c. Uteroplacental insufficiency. d. Spontaneous rupture of membranes.

C (Low maternal blood pressure reduces placental blood flow during uterine contractions and results in fetal hypoxemia. Maternal hypotension is not associated with early decelerations, fetal dysrhythmias, or spontaneous rupture of membranes.)

A nurse caring for a woman in labor understands that increased variability of the fetal heart rate might be caused by: A. Narcotics. B. Barbiturates. C. Methamphetamines. D. Tranquilizers.

C (Methamphetamines. Maternal ingestion of narcotics may be the cause of decreased variability. The use of barbiturates may also result in a significant decrease in variability as these are known to cross the placental barrier. The use of illicit drugs, such as cocaine or methamphetamines, might cause increased variability. Tranquilizer use is a possible cause of decreased variability in the fetal heart rate.)

The nurse providing care for the laboring woman should understand that late fetal heart rate (FHR) decelerations are the result of: a. Altered cerebral blood flow. b. Umbilical cord compression. c. Uteroplacental insufficiency. d. Meconium fluid.

C (Uteroplacental insufficiency would result in late decelerations in the FHR. Altered fetal cerebral blood flow would result in early decelerations in the FHR. Umbilical cord compression would result in variable decelerations in the FHR. Meconium-stained fluid may or may not produce changes in the fetal heart rate, depending on the gestational age of the fetus and whether other causative factors associated with fetal distress are present.)

The nurse administers an amnioinfusion to a pregnant patient according to the primary health care provider's (PHP's) instructions. What is the reason behind the PHP's instructions? A. Late decelerations B. Early decelerations C. Variable decelerations D. Prolonged decelerations

C (Variable decelerations in the fetal heart rate (FHR) are observed when the umbilical cord is compressed. An amnioinfusion refers to the infusion of isotonic fluid into the uterine cavity when the amniotic fluid levels are decreased. This intervention is usually done for the prevention of umbilical cord compression. Late decelerations are observed when infections or elevated uterine contractions (UCs) are seen in a patient. This condition will be reversed by maintaining an I.V. solution, but aminoinfusion is not administered. Early deceleration in the FHR is a normal sign that does not require any intervention. Prolonged deceleration of the FHR occurs when there is a marked reduction of the fetal oxygen supply.)

The nurse is assessing a pregnant patient through a tocotransducer placed externally and a spiral electrode placed internally. What information would the nurse obtain by this arrangement? Select all that apply. A. Lactate levels in the fetal blood B. Strength of uterine contractions C. Duration of uterine contractions D. Frequency of uterine contractions E. Accelerations of fetal heart rate

C, D, E (A tocotransducer is an external device that is used for assessment of uterine activity (UA). This instrument would report duration and frequency of the uterine contractions (UCs). The spiral electrode can monitor accelerations of the fetal heart rate. These systems do not report the intensity of UCs. Strength of UCs can be assessed using an intrauterine pressure catheter (IUPC). Neither a tocotransducer nor a spiral electrode is used to determine the lactate level; it is obtained by the fetal scalp sampling method.)

The charge nurse instructed a group of student nurses about the monitoring of uterine activity (UA) during labor. Which statement by the student nurse is accurate regarding the calculation of Montevideo units? "They can be calculated: A. Using a spiral electrode monitoring device." B. Using a tocotransducer monitoring system." C. Using an ultrasound transducer machine." D. With an intrauterine pressure catheter (IUPC)."

D (Montevideo units can only be calculated using the internal monitoring of UA. An intrauterine pressure catheter (IUPC) monitors UA internally. Therefore Montevideo units can only be calculated using the IUPC. Spiral electrode monitoring is used for assessing the fetal heart rate (FHR), not UA internally. The tocotransducer monitoring system is used to monitor the UA externally. An ultrasound transducer is also used to monitor the FHR externally.)

You are evaluating the fetal monitor tracing of your client, who is in active labor. Suddenly you see the fetal heart rate (FHR) drop from its baseline of 125 down to 80. You reposition the mother, provide oxygen, increase IV fluid, and perform a vaginal examination. The cervix has not changed. Five minutes have passed, and the FHR remains in the 80s. What additional nursing measures should you take? A. Notify nursery nurse of imminent delivery. B. Insert a Foley catheter. C. Start oxytocin (Pitocin). D. Notify the primary health care provider immediately (HCP).

D (Notify the primary health care provider immediately (HCP). This is not the most important nursing measure at this time. The patient needs to be evaluated by the HCP immediately to determine whether delivery is warranted at this time. If the FHR were to continue in an abnormal or non-reassuring pattern, a cesarean section may be warranted. This would require the insertion of a Foley catheter; however, the physician must make that determination. Oxytocin may put additional stress on the fetus. To relieve an FHR deceleration, the nurse can reposition the mother, increase IV fluid, and provide oxygen. Also if oxytocin is infusing, it should be discontinued. If the FHR does not resolve, the primary health care provider should be notified immediately.)

The nurse observes variable decelerations in fetal heart rate (FHR) while assessing a pregnant patient with oligohydramnios. What medication should be immediately given to the patient? A. Oxytocin (Pitocin) B. Terbutaline (Brethine) C. Phenylephrine (Endal) D. Lactated Ringer's solution

D (Oligohydramnios is a condition that may cause umbilical cord compression and results in variable decelerations in the FHR. Usually lactated Ringer's or normal saline solution can be administered into the umbilical cord to increase the amniotic fluid volume and normalize fetal heart activity. Terbutaline (Brethine) is a uterine relaxant. It is mostly used to reduce uterine tachysystole. The nurse can administer phenylephrine (Endal) if other measures are unsuccessful in improving maternal hypotension. Oxytocin (Pitocin) is a uterine stimulant to induce labor. It is not used to reduce the umbilical cord compression.)

Which finding meets the criteria of a reassuring fetal heart rate (FHR) pattern? A. FHR does not change as a result of fetal activity. B. Average baseline rate ranges between 100 and 140 beats/min. C. Mild late deceleration patterns occur with some contractions. D. Variability averages between 6 to 10 beats/min.

D (Variability averages between 6 to 10 beats/min. FHR should accelerate with fetal movement. Baseline range for the FHR is 120 to 160 beats/min. Late deceleration patterns are never reassuring, although early and mild variable decelerations are expected, reassuring findings. Variability indicates a well-oxygenated fetus with a functioning autonomic nervous system.)

purpose of electronic fetal monitoring

EFM is to assess the adequacy of fetal oxygenation during labor

Where do you place a toco Where do you place ultrasound transducer

Toco- measures intrauterine pressure; measures UA transabdominally; goes above umbilicus transducer- measures FHR and UC; goes on bottom

what is the best indicator for fetal well-being?

baseline fetal heartrate (110-160 in utero)

amnioinfusion

infusion of room temperature isotonic fluid (normal saline or lactated ringers solution) into uterine cavity if the volume of amniotic fluid is low this is done because low fluid causes compression of cord during contraction which diminishes the flow of blood between placenta and fetus

what happens to babys heart rate when mom has a fever?

tachycardia (>160bpm)

variability measures what?

umbilical cord compression


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