Saturday, July 12, 2014

Latent phase of labor

A 20-year-old G1 woman at 40 weeks gestation presents to labor and delivery complaining of painful contractions every 3-4 minutes since midnight. Her examination on admission was 2 centimeters dilated, 90% effaced and 0 station. Three hours later, her exam is unchanged. What's the next step of management?

This is a common scenario seen in triage. Patient is in the latent phase of labor and has not yet reached the active phase (more than 4 cm). 

A prolonged latent phase is defined as >20 hours for nulliparas and >14 hours for multiparas, and may be treated with rest or augmentation of labor. 

Artificial rupture of membranes is not recommended in the latent phase as it places the patient at increased risk of infection. Cervical dilation or laminaria placement are not indicated.

Indication of labor induction
Benefits of delivery outweighs the risks of continuing the pregnancy


  • Maternal: fetal demise, prolonged pregnancy, chorioamnionitis, severe preeclampsia, eclampsia
  • Fetal: IUGR, abnormal fetal testing, infection


Fetal heart tracing






Late decelerations are a symmetric fall in the fetal heart rate, beginning at or after the peak of the uterine contraction and returning to baseline only after the contraction has ended. Late decelerations are associated with uteroplacental insufficiency

Variable decelerations show an acute fall in the FHR with a rapid downslope and a variable recovery phase. They are characteristically variable in duration, intensity, and timing, and may not bear a constant relationship to uterine contractions. Variable decelerations are due to cord compression. 

Early decelerations are physiologic caused by fetal head compression during uterine contraction, resulting in vagal stimulation and slowing of the heart rate. This type of deceleration has a uniform shape, with a slow onset that coincides with the start of the contraction and a slow return to the baseline that coincides with the end of the contraction. Thus, it has the characteristic mirror image of the contraction. 

The true sinusoidal pattern is a regular, smooth, undulating form typical of a sine wave that occurs with a frequency of two to five cycles/minute and an amplitude range of five to 15 beats/minute. It is also characterized by a stable baseline heart rate of 120 to 160 beats/minute and absent beat-to-beat variability.

Preeclampsia

Preeclampsia: hypertension and proteinuria with or without edema which develop during the third trimester

W/U:
All women who present with new-onset hypertension should have the following tests:
  • CBC
  • AST/ALT
  • Serum creatinine
  • Uric acid
  • 24-hour urine collection for protein and creatinine (criterion standard) or urine dipstick analysis
    • Mild: 300mg
    • Severe: 5g
Additional studies to perform if HELLP syndrome is suspected are as follows:
  • Peripheral blood smear
  • Serum lactate dehydrogenase (LDH) level
  • Indirect bilirubin
Management 

  • Deliver the baby if severe

Perineal lacerations

First degree: fourchette, perineal skin, and vaginal mucosa

Second: first + vaginal fascia and muscle of the perineal body

Third: second + anal sphincter

Fourth: external and internal anal sphincters and the rectal mucosa








Spalding sign

Ultrasound finding of overlapping of the fetal skull bones. 
This finding was originally described for abdominal radiographs and is indicative of fetal demise.



Pyelonephritis in pregnancy

Renal infection is the most common serious medical complication of pregnancy. 


  1. Why pregnant women are more likely to have renal infection?
    • Ureters are more dilated
    • Uterus can compress the ureter, leading to stagnant urine
  2. Presentation: fever, chills, CVA tenderness, UTI symptoms may be present 
  3. W/U: urine analysis
  4. Management
    • Initially aggressive intravenous hydration is given to ensure adequate urinary output
    • Antimicrobials are begun promptly after diagnosis (cephzolin)
  5. Outcome:
    • The majority of patients are afebrile by 72 hours. If there is no clinical improvement by 72 hours, further evaluation is warranted including sonography to look for urinary tract obstruction (abnormal ureteral or pyelocaliceal dilatation) or calculi. 
    • Obstruction can be relieved by cystoscopic placement of a double-J ureteral stent unless long-term stenting is foreseen, then percutaneous nephrostomy is indicated. 

    • Surgical exploration is required in up to 2% of women if other conservative therapies are not successful

PROM and PPROM

Premature rupture of membrane
Definition = ROM before onset of labor
Management

  • Confirm ROM w/ speculum exam 
  • Avoid too many vaginal exams (prevent infection)
  • Evaluate for chorioamnionitis (fever, leukocytosis, maternal/fetal tachycardia, uterine tenderness, malodorous vaginal discharge)
    • If there is chorioamnionitis, deliver despite GA + antibiotics
Preterm PROM
  • Admit the patient
  • Administer steroids to prevent RDS (if <32 weeks)
  • US to assess GA, anomalies, AFI (is there enough fluid)
The time from premature rupture of membranes to labor is inversely related to gestational age. At term, 90% will spontaneously go into labor within 24 hours of PROM. At 28 weeks to 34 weeks, 50% will go into labor within 24 hours and 80% within 48 hours.