Monday, August 28, 2017

- Staging of fetal growth restriction and optimal timing of delivery.

 

Staging of fetal growth restriction and optimal timing of delivery

 

The optimal timing of delivery with FGR is determined by the severity of

fetal compromise and the risk of stillbirth:

1.     Stage I (mild placental insufficiency): Abnormal Doppler studies including CPR ratios.

2.     Stage II (severe uteroplacental insufficiency): There is absent EDV in the UA. Delivery should be after 34 weeks with twice-a-week monitoring.

3.     Stage III (fetal deterioration, low suspicion of fetal acidosis): There is a reversal of EDV in the UA or DV PI >95th percentile. Risks of stillbirth and neurologic handicap are increased. Delivery should be around 32 weeks.

4.     Stage IV (fetal acidosis): Spontaneous fetal decelerations, reduced variability or reversal of atrial flow on DV. Imminent risk of fetal demise. Deliver immediately.

 

Also timing of delivery should be individualized and based on gestational age and fetal condition. The following principles may guide management of pregnancies complicated by IUGR:

·       Remote from term, conservative management to prolong pregnancy may be performed safely with serial antepartum surveillance as described earlier to achieve further fetal maturity.

·       The term or late preterm (>34 weeks) IUGR fetus should be delivered when there is evidence of maternal hypertension, poor interval growth (over 2- to 4-week intervals), nonreassuring antenatal testing (NST, BPP), and/or umbilical artery Doppler testing to demonstrate absence or reversal of flow.

·       When growth restriction is mild, no complicating maternal or fetal factors are present, and the umbilical artery Doppler and fetal testing are reassuring, delivery can be delayed until at least 37 weeks to minimize the risks of prematurity.

·       Each specific clinical scenario requires close consideration and an individualization of management plans.

Friday, August 25, 2017

- Intrauterine Monitoring of the growth-restricted fetus.

 

Intrauterine Monitoring of the growth-restricted fetus

The fetus with IUGR is at risk from intrauterine hypoxia/intrauterine death and asphyxia during labor and delivery.

The growth-restricted fetus should be monitored closely to determine the optimal time for delivery.

Progressive uteroplacental failure results in:

o  Reduced growth in femur length and abdominal circumference (<10th centile)

o  Reduced amniotic fluid volume

o  Abnormal umbilical artery Doppler waveforms due to increased placental impedance – absent and then reversed end-diastolic flow velocity.

o  Redistribution of blood flow in the fetus increased to the brain, reduced to the gastrointestinal tract, liver, skin and kidneys

o  Abnormal ductus venosus Doppler waveform denoting diastolic cardiac dysfunction

o  Reduced fetal movements

o  Abnormal CTG (cardiotocography)

o  Intrauterine death or hypoxic damage to the fetus.

Tuesday, August 22, 2017

- Neonatal clinical Assessment for IUGR newborn.

 Neonatal clinical Assessment for IUGR newborn

1.  Reduced birthwight for gestational age.

2.  Physical appearance:

When infants with congenital malformation syndromes and infections are excluded, the remaining groups of FGR infants have a characteristic physical appearance:

-        These infants, in general, are thin with loose, peeling skin because of loss of subcutaneous tissue, a scaphoid abdomen (must be distinguished from infants with diaphragmatic hernias), and disproportionately large head.

-        Senile face.

-        Cranial sutures may be widened or overriding, and the anterior fontanelle may be larger than expected, representing diminished membranous bone formation.

-        Vernix caseosa frequently is reduced or absent as a result of diminished skin perfusion during periods of fetal distress or because of depressed synthesis of estriol, which normally enhances vernix production. In the absence of this protective covering, the skin is continuously exposed to amniotic fluid and will begin to desquamate.

-        Sole creases appear more mature due to increased wrinkling from increased exposure to amniotic fluid.

-        Breast tissue formation also depends on peripheral blood flow and estriol levels and will be reduced.

-         female external genitalia will appear less mature because of the absence of the perineal adipose tissue covering the labia.

-        Ear cartilage also may be diminished.

-        The umbilical cord often is thinner than usual. When meconium has been passed in utero, the cord is yellow-green stained, as are the nails and skin.

-        Cerebral cortical convolutions, renal glomeruli and alveolar maturation all relate to gestational age and are not delayed with IUGR.

Sunday, August 20, 2017

- Diagnosis Of IUGR.

 Diagnosis Of  IUGR

A.    Establishing gestational age.

B.    Fetal assessment:

                        I. Ultrasonography (may be as often as 1– 2 times per week).

1.     Estimated fetal weight:  4 biometric measures are commonly used: biparietal diameter, head circumference, abdominal circumference, and femur length. The biometric measurements can be combined to generate an EFW. The estimate may deviate from the birthweight by up to 20%. The liver is the first organ to suffer the effects of growth restriction due to redistribution of ductus venosus blood flow to the heart and a decrease in glycogen deposition in the liver. Reduced growth of the abdominal circumference (<5 mm/wk) is the earliest sign of asymmetric growth restriction and diminished glycogen storage.

2.     Ratio of head circumference to abdominal circumference. This ratio normally changes as pregnancy progresses. In the second trimester, the head circumference is greater than the abdominal circumference. At about 32 to 36 weeks’ gestation, the ratio is 1:1, and after 36 weeks, the abdominal measurements become larger. Persistence of a head-to-abdomen ratio <1 late in gestation is predictive of late-onset FGR.

3.     Femur length: Serial measurements of femur length are as effective as head measurements for detecting early-onset FGR.

4.     Placental volume measurements may be helpful in predicting subsequent fetal growth. Placental weight and/or volume is decreased before fetal growth decreases. FGR with decreased placental size is more likely to be associated with fetal acidosis. Placental volume correlates with placental flow indices.

Thursday, August 17, 2017

- Neonatal complications of fetal growth restriction

 

Neonatal complications of fetal growth restriction

1.  Preterm labor: 

Pathophysiologic processes causing the IUGR also can lead to preterm labor and preterm delivery. Thus, IUGR frequently occurs with a variety of maternal conditions that are associated with preterm delivery.

2.  Hypoxia may be due to:

a.  Perinatal asphyxia:

-   FGR fetuses are at risk of hypoxia-ischemia at birth because Transient diminished placental blood flow during labor is poorly tolerated by growth-restricted fetuses.

-   A large proportion of stillborn infants had FGR in utero.

-   Intrauterine chronic hypoxia and limited carbohydrate reserves caused by placental insufficiency are more likely to predispose to perinatal hypoxic ischemia in SGA neonates than AGA newborns with an increased risk of all clinical sequelae of perinatal asphyxia.

b.  PPHN. Many FGR infants are subjected to chronic intrauterine hypoxia → abnormal thickening of the smooth muscles of the small pulmonary arterioles → ↓ pulmonary blood flow → results in varying degrees of pulmonary artery hypertension.

c.  RDS: It is controversial whether FGR results in accelerated fetal pulmonary maturation due to chronic intrauterine stress. Respiratory distress syndrome may be seen less frequently in FGR infants; however, these infants are at higher risk of pulmonary morbidities such as bronchopulmonary dysplasia compared to appropriately grown infants.

d.  Meconium aspiration. Post-term FGR infants are particularly at risk for meconium aspiration.

e.  PDA. Conflicting data suggest that hemodynamically significant patent ductus arteriosus (PDA) may be bigger and occur earlier in FGR infants compared to AGA infants; nevertheless, spontaneous closure of PDA is more frequent in FGR infants with <1000 g birthweight. FGR infants with PDA are at greater risk for pulmonary hemorrhage, intraventricular hemorrhage (IVH), necrotizing enterocolitis (NEC), and renal failure.