Isoimmunization, Multifetal Gestation & Fetal Growth Abnormalities

Question 1

What is the average “menstrual or gestational” age of a developing fetus?

Answer 1

40 weeks (FDLMP to due date)

Question 2

What is the average gestational age for twins?

Answer 2

35 weeks

Question 3

What is the average gestational age for triplets?

Answer 3

33 weeks

Question 4

What is the average gestational age for quadruplets?

Answer 4

29 weeks

Question 5

What are the common complications of preterm delivery?

Answer 5

• low birth weight
• respiratory distress syndrome
• neurologic impairment
• intraventricular hemorrhage
• necrotizing enterocolitis
• retinopathy of prematurity

Question 6

What are the complications of multiple gestations?

Answer 6

• preterm complications
• fetal growth restriction
• preeclampsia/gestational DM
• abruptio placentae
• rupture of membranes leading to preterm delivery.
• congenital anomalies
• cerebral palsy

Question 7

On what day after ovulation does the zygote (blastocyst) implant in the endometrial lining?

Answer 7

day 8

Question 8

With what does maternal blood come into direct contact?

Answer 8

the CHORION

Question 9

** What 2 layers comprise the sac that the baby grows in?

Answer 9

• INNER AMNION (water bag).

- OUTER CHORION

Question 10

*** What are DIZYGOTIC twins?

Answer 10

• twins resulting from two separate fertilizations by two genetically dissimilar sperm with 2 genetically dissimilar oocytes.
• aka you get 2 genetically different babies (FRATERNAL twins).

Question 11

*** How are the membranes arranged for DIZYGOTIC twins?

Answer 11

• each has their own INNER AMNION and OUTER CHORION.

* Dichorionic-Diamniotic placentation!

Question 12

*** What are MONOZYGOTIC twins?

Answer 12

• twins resulting from ovulation and fertilization of a SINLGE OOCYTE with subsequent division (cleavage) of the zygote.
• aka IDENTICAL twins

Question 13

** What determines the membrane division of monozygotic twins?

Answer 13

the TIMING of zygote cleavage.

Question 14

** Are dizygotic twins ALWAYS dichorionic-diamniotic?

Answer 14

YES!!!

Question 15

*** What is the placentation result of zygote cleavage (MONOZYGOTIC twins) within 4 days of fertilization, while still in the fallopian tube?

Answer 15

• dichorionic-diamniotic

Question 16

** What is the placentation result of zygote cleavage (MONOZYGOTIC twins) between days 4-8 after fertilization (typically while the blastocyst is in the uterine cavity)?

Answer 16

• MONOchorionic-diamniotic

Question 17

If you do an ultrasound and see a MONOchorionic-diamniotic placenta, what do you absolutely know?

Answer 17

• babies are 100% MONOZYGOTIC twins

* aka identical twins

Question 18

If you do an ultrasound and see a dichorionic-diamniotic placenta, what do you know?

Answer 18

• babies could be either dizygotic or monozygotic.

Question 19

** What is the placentation result of zygote cleavage (MONOZYGOTIC twins) between days 8-12 after fertilization?

Answer 19

• MONOchorionic- MONOamniotic

* these babies have a higher rate of cord entanglement and complications.

Question 20

*** What happens if zygote cleavage (MONOZYGOTIC twins) occurs after day 13 (after formation of the bilaminar disc)?

Answer 20

conjoined twins :(

Question 21

*** Are all monochorionic twins identical?

Answer 21

YES

Question 22

*** Are all dichorionic twins always dizygotic?

Answer 22

NO, could be monozygotic if division occurs within 4 days of fertilization.

Question 23

*** Are all dizygotic twins always dichorionic?

Answer 23

YES

Question 24

*** Can monochorionic twins be dizygotic?

Answer 24

NEVER, these are always identical twins.

Question 25

Are most twins di- or mon-zygotic?

Answer 25

• most are dizygotic

Question 26

What type of placentation are most MONOzygotic twins?

Answer 26

• 65%= MONOchorionic-diamniotic
• 34%= dichorionic-diamniotic
• 1%= MONOchorionic-MONOamniotic

Question 27

** How do you tell chorionicity/amnionicity?

Answer 27

1. count the # of placentas (if 2, then DC; if 1, then DC or MC).
2. check gender (if different, then DC; if same, then DC or MC)
3. check for LAMBDA SIGN= as two chorions come together they form a triangular appearance on US which is an intervening membrane that separates the 2 babies (always dichorionic-diamniotic).
4. check for T-SIGN= no triangle appearance like lambda sign, but membrane goes straight in and is more consistent with monozygotic (MONOchorionic-diamniotic) preganancy.
5. check membrane thickness (dichorionic-diamniotic makes a THICK membrane; MONOchorionic-diamniotic makes a THIN membrane, usually less than 2 mm).

Question 28

If you don’t see an intervening membrane on US, but do see 2 separate yolk sacs, what can you infer about placentation?

Answer 28

• MONOchorionic-diamniotic

Question 29

What can you infer if you see 2 embryos, with 1 yolk sac on US?

Answer 29

• MONOchorionic-MONOamniotic

Question 30

What is considered advanced maternal age?

Answer 30

age 33= increased risk of fetal aneuploidy (down syndrome).

Question 31

Is the likelihood of having a baby with down syndrome in a trichorionic-triamniotic pregnancy the same parental age as a parent with a singleton pregnancy?

Answer 31

NO, age drops to 28

Question 32

What is used more now instead of amniocentisis?

Answer 32

• analyze the fetal DNA in the maternal serum :)

Question 33

What is the management of dichorionic-diamniotic twins?

Answer 33

• US every 4-6 weeks
• serial nonstress testing during 3rd trimester (weekly)
• deliver by 38 weeks

Question 34

What is twin-to-twin transfusion syndrome (TTTS)?

Answer 34

• abnormal blood vessel connections in the placenta allow blood to flow unevenly between the babies; occurs in MONOchorionic-diamniotic twins

Question 35

If one baby dies in a MONOchorionic-diamniotic or MONOchorionic-MONOamniotic, is there a risk of neurologic impairment (cerebral palsy) of the surviving twin?

Answer 35

YES

Question 36

What is the management of MONOchorionic-diamniotic twins?

Answer 36

• US every 2 weeks to rule out TTTS.
• US every 4 weeks to evaluate interval fetal twin growth.
• serial nonstress testing during 3rd trimester
• deliver by 34-36 weeks

Question 37

What is the management of MONOchorinoic-MONOamniotic twins?

Answer 37

• US every 2-3 weeks
• come in daily for 4 hours for fetal non-stress monitoring.
• deliver at 32 weeks via cesarean section (give MgSO4 and dexamethasone to reduce complications).

Question 38

What is the most common variety of conjoined twins?

Answer 38

• thoracopagus, followed by omphalopagus

Question 39

Do most conjoined twins spontaneously miscarry?

Answer 39

YES

Question 40

What are the complications of an incompatible blood transfusion?

Answer 40

• hemolysis
• renal failure
• shock
• death

Question 41

What is the most common blood type?

Answer 41

O+

Question 42

** What is the INDIRECT antiglobulin test (IAT)? (TEST QUESTION)

Answer 42

• maternal antenatal antibody screen

* aka how a pregnant mom is evaluated to determine whether or not she has antibodies to her RBCs or Rh

Question 43

What happens if a mother is Rh- and the fetus is Rh+?

Answer 43

if the RBCs cross the placenta, the antibodies can attack the Rh+ RBCs of the fetus causing hemolysis, anemia, heart failure, and even death of the fetus.

Question 44

What is Rh sensitization?

Answer 44

• in the first pregnancy of an Rh- mom with an Rh+ dad, the mom is exposed to the Rh + factor of the baby for the first time during delivery, causing her to develop antibodies to this Rh factor antigen. First baby is fine.
• in the second pregnancy of an Rh+ baby, the mother’s IgG antibodies will cross the placenta and attack the fetal RBCs causing erythroblastosis fetalis (rhesus sensitization).

Question 45

In what does erythroblastosis result?

Answer 45

• hemolysis
• hyperbilirubinemia (due to lysis of RBCs= bilirubin).
• fetal anemia
• high output heart failure
• pallor
• hepatosplenomegaly

Question 46

** What is RHOGAM (Anti-Rh(D) immunoglobulin)?

Answer 46

• medication that prevents the maternal immune system from recognizing fetal Rh+ RBCs.
• give at 28 weeks gestation to Rh- moms and then again (within 72 hours) to mother after delivery if baby is Rh+.

Question 47

When does Rh sensitization occur?

Answer 47

• delivery (vaginal or cesarean section).
• prenantal diagnosis (CVS or amniocentesis).
• blunt trauma to gravid abdomen (ex. car accident).
• antenatal hemorrhage
• ectopic pregnancy
• vaginal bleeding

Question 48

What is the first thing we do at a mother’s first prenatal appointment?

Answer 48

• ABO blood type and INDIRECT Coombs (IAT) antibody screen.

- If Rh- and no evidence of sensitization, then she is managed as a routine pregnancy.

Question 49

Do we give RHOGAM if mother is already sensitized?

Answer 49

NO, because this is just to prevent sensitization.

Question 50

In the event of a fetal-maternal hemorrhage, will one dose of RHOGAM (anti-Rh(D) immunoglobulin) prevent Rh sensitization?

Answer 50

YES :)

Question 51

What will the Rosette test tell you after delivery?

Answer 51

• tests for significant amount of fetal-maternal hemorrhage (more than 30 cc’s).

Question 52

What must you also do if Rosette test is +?

Answer 52

perform Kleihauer-Betke stain= tells you how much fetal blood is in the maternal circulation

Question 53

What do we do if the mom is already Rh sensitized?

Answer 53

• titrate the amount of Rh antibodies in her serum (ex. 1:1 not bad, but 1:56 is bad).

Question 54

What is the critical Rh titer?

Answer 54

• the level at which the mother is significantly sensitized that she may be producing enough antibodies to cause fetal anemia from fetal hemolysis.
• 1:16 is typical critical level

Question 55

What must we do once the critical Rh(D) antibody level is reached?

Answer 55

• determine father’s (paternal) zygosity.
• if he’s heterozygous, then perform amniocentesis to evaluate fetal Rh(D).
• if he’s homozygous, then fetus is at risk

Question 56

What happens as a result of fetal anemia do to Rh sensitization of the mother?

Answer 56

• blood viscosity increases, causing the heart to pump harder (increasing CO and velocity).

Question 57

How do we evaluate blood viscosity?

Answer 57

• US color doppler of middle cerebral artery to calculate peak systolic velocity.

Question 58

How many vessels are in an umbilical cord?

Answer 58

2 arteries and 1 vein usually.

Question 59

** What do we do if the fetus is anemic?

Answer 59

• intrauterine vascular TRANSFUSION of 80% packed RBCs

Question 60

Are there other minor RBC antigens and antibodies?

Answer 60

YES. If mom has any of these, we follow her the same way we would follow Rh disease= titer testing every 4 weeks until 24 weeks, and then every 2 weeks thereafter (or until she hits the critical threshold).

Question 61

Is there any medication to prevent anemia from a minor RBC antigen?

Answer 61

NO, only for Rh disease.

Question 62

What is fetal/neonatal alloimmune thrombocytopenia?

Answer 62

• mom has antibody against a platelet antigen that the father has given to the fetus. The fetus can spontaneously bleed and die.

Question 63

** How do you manage minor RBC antigen problems? (TEST QUESTION)

Answer 63

• you can do in vitro fertilization by transferring only those embryos that don’t have the minor antigen (only if father is HETEROZYGOUS).
• if HOMOZYGOUS, then you can use a gestational carrier, but make sure the mom carrying the baby doesn’t have antibody against the minor antigen.

Question 64

What is the average fetal (embryonic age) age?

Answer 64

• 38 weeks (266 days)

Question 65

What is Naegle’s rule for assessment of gestational age?

Answer 65

FDLMP - 3 months + 7 days= due date

Question 66

What can you do after 20 weeks of pregnancy to evaluate fetal size?

Answer 66

• measure the maternal abdomen (FUNDAL HEIGHT in cm from the pubic symphysis correspond to number of weeks pregnant).
  Ex. 28 cm = 28 weeks pregnant.

Question 67

What is Leopold’s maneuver?

Answer 67

• way to assess the size of the baby and fetal presentation.
• not very accurate

Question 68

How does US in OB compare to other US modalities?

Answer 68

• 2-12 million cycles/sec compared to normal US of 20,000 cycles/sec

Question 69

How does US work?

Answer 69

• by applying an electrical potential to Piezoelectric crystals in the US transducer (probe) that causes crystals to mechanically deform, and this deformation results in formation of an acoustic wave.
• each piezoelectric crystal functions as both a transmitter and receiver of mechanical energy.
• the piezoelectric crystal waits to receive the returning echoes, which it converts back to electrical energy.
• display of these returning electrical signals (echoes) creates images.

Question 70

*** How does frequency of US compare to wavelength?

Answer 70

the higher the frequency the shorter the wavelength, and the greater the image resolution (but lower penetration).
*OB uses 2-12 MHz

Question 71

Does oligohydramnios make US easier or harder?

Answer 71

• harder, because US waves go more easily through fluids, an oligohydramnios has little fluid around the fetus.

Question 72

What is the timetable for US visible structures in a developing fetus?

Answer 72

• 4.5-5 weeks= gestational sac.
• 5 weeks= yolk sac within that sac.
• 5.5-6 weeks= cardiac activity and embryo (measurable crown rump length).

Question 73

When do you change the “due date” based on US discrepancy with FDLMP?

Answer 73

• if less than 9 weeks, must have 5 days or more difference in US date.
• if 9-14 weeks, must have 8 days or more difference.

Question 74

What is the most accurate measure for dating by US?

Answer 74

• crown rump length measurement (CRL)

Question 75

** What do we use to estimate fetal size and date when baby is at 14-22 weeks gestational age?

Answer 75

1. HEAD CIRCUMFERENCE (most predictive US parameter at this point).
2. biparietal diameter
3. abdominal circumference
4. femur length

Question 76

** What US measurement is best for evaluating gestational age in the third trimester?

Answer 76

FEMUR LENGTH

Question 77

What is fetal macrosomia?

Answer 77

• large fetus (4500 grams) and morbidity significantly increases.

Question 78

** What are the major complications of fetal macrosomia? (TEST QUESTION)

Answer 78

• shoulder dystocia= the anterior shoulder of the infant cannot pass the pubic symphysis, leading to brachial “Erb-Duchenne” palsy.
• neonatal hypoglycemia
• metabolic syndrome
• impaired glucose tolerance and obesity.

Question 79

What is the amount of time that you should delivery a baby after the head is out?

Answer 79

• 5 mins max

Question 80

** What are the risk factors for fetal macrosomia?

Answer 80

• DM (because the placenta makes hormones that make her carbohydrate intolerant, leading to the fetus’s response of increased insulin production, which acts as a growth factor).
• prior Hx of fetal macrosomia
• weight gain prior to or during pregnancy
• multiparity (babies tend to get larger for subsequent pregnancies).
• male
• ethnicity
• gestation greater than 40 weeks.
• positive 1 hr glucose tolerance test (GTT) with normal 3 hour GTT.

Question 81

What are the maternal risks of fetal macrosomia?

Answer 81

• protracted/arrested labor
• operative vaginal delivery (forceps for vacuum assisted).
• Cesarean delivery
• genital tract lacerations
• postpartum hemorrhage

Question 82

** How do you manage fetal macrosomina? (TEST QUESTION)

Answer 82

• AVOID operative vaginal delivery (FORCEPS, VACUUM)
• consider elective CESAREAN SECTION if over 5,000 grams or 4,500 (with DM).
• consider cesarean section for fetuses with small head circumference/abdominal circumference (HC/AC ratio).

Question 83

What is fetal growth restriction?

Answer 83

small baby (less than 10th percentile).

Question 84

What does growth velocity (fetal abdominal growth of less than 10 mm over 2 weeks) reflect?

Answer 84

• decreased abdominal adipose tissue and decreased hepatic size related to decreased glycogen storage in the liver.

Question 85

Does perinatal mortality go up as birth weight goes down?

Answer 85

YES

Question 86

Why do we look at the fluid when a fetus is not growing well?

Answer 86

• amniotic fluid is fetal urine. If the baby is not being appropriately oxygenated, the kidneys are not being adequately perfused, and are therefore making less urine (amniotic fluid)= BAD.

Question 87

What happens when the placenta is not functioning well?

Answer 87

• it becomes progressively more difficult for the baby to get blood flow back to the placenta so that it can be adequately re-oxygenated.
• do a doppler eval of the umbilical artery to see how difficult it is (resistance of blood flow) for the baby to get blood flow back to the placenta.

Question 88

Are most babies under the 10th weight percentile normal?

Answer 88

YES, but 20% are pathologic.

Question 89

Of the 20% of pathologic cases of babies under the 10th weight percentile, what are the causes?

Answer 89

• 75%= extrinsic (placental)

- 25%= intrinsic (chromosomal, infection, anomaly).

Question 90

Is there less vascularization of the maternal bed to the placenta in fetal growth restriction or pre-eclampsia?

Answer 90

YES

Question 91

** What happens if the fetus is not getting adequate oxygenation due to fetal growth restriction?

Answer 91

it shunts blood flow to the brain, causing increased end diastolic velocity. This can be evaluated with doppler of the middle cerebral artery!