Obstetrical Ultrasound
Content
Obstetrical Ultrasound
By La Lura White M.D.
Maternal Fetal Medicine
Obstetrical Ultrasound
• Introduced in the late 1950’s
ultrasonography is a safe, noninvasive, accurate and cost-effective
means to investigate the fetus
• Computer generated system that uses
sound waves integrated through real
time scanners placed in contact with a
gel medium to the maternal abdomen
• The information from different
reflections are reconstructed to
provide a continuous picture of the
moving fetus on the monitor screen
Obstetrical Ultrasound
•
•
•
•
•
•
•
•
•
•
Indications:
Unsure last menstrual period
Vaginal bleeding during pregnancy
Uterine size not equal to expected for dates
Use of ovulation-inducing drugs confirm early pregnancy
Obstetric complications in a prior pregnancy: ectopic, preterm
delivery
Screen for fetal anomaly: abnormal serum screens, certain drug
exposure in early pregnancy, maternal diabetes. Rh
isoimmunization
Postdate fetus
Twins (monochorionic)
Intrauterine growth restriction (IUGR)
RADIUS study (1993) did not support routine US screening
Obstetrical Ultrasound
•
•
•
•
•
•
•
•
•
•
•
•
1st. Trimester (less than 12 weeks)
Gestational sac location / size / shape
Embryo
Yolk sac
Amnion
Fetal cardiac activity
Placental position/Umbilical cord
Amnionitic fluid
Fetal morphology >11 weeks)
Cranium
Heart
Stomach/Bladder/Cord insertion/presence of limbs, hands
and feet
Obstetrical Ultrasound
• Pre and peri-ovulation (1-2 weeks): ovarian
follicle matures and ovulation
• Conceptus (3-5 weeks): Corpus luteum,
fertilization, morula, blastocyst, bilaminar
embryo
• Embryonic (6-10 weeks): Trilaminar Cshaped embryo
• Fetal Phase: (11-12 weeks):
Obstetrical Ultrasound
(TVU)
Gestational sac: seen at 4 weeks, fluid
filled with echogenic border, grow at least
0.6 mm daily.15
Yolk sac: 33 days (4.7 wk)
Embryonic echoes: 38 days (5.4 w) with
embryo at 6 wk
In a normal pregnancy, the embryo should
be visible if the gestational sac is 25 mm
or larger in diameter.
Obstetrical Ultrasound
• An intrauterine gestational sac should be visualized by
transvaginal ultrasound with β-hCG values between 1000
and 2000 IU and abdominal exam 5500-6500 IU
• Visible heart activity: 43 days (6.1w)
• Normal heart rate at 6 weeks: 90-110 bpm
• At 9 weeks:140-170 bpm.
• At 8-9 weeks if nl heartbeat: no bleeding 3%loss
bleeding 13% loss
• At 5-8 weeks a bradycardia (<90 bpm) is associated with a
high risk of miscarriage.
Obstetrical Ultrasound
• CRL(Crown Rump Length):
• Longest length excluding
limbs and yolk sac
• Made between 7 to 13 weeks
• 3 days: 7-10 weeks
• 5 days: 10-14 weeks
• Fetal CRL in centimeters plus
6.5 equals gestational age in
weeks
Obstetrical Ultrasound
• Ultrasound findings in a
pregnancy destined to abort
include:
• A poorly-defined, irregular
gestational sac
• A large yolk sac (6 mm or
greater in size)
• Low site of sac location in the
uterus
• Empty gestational sac at 8
weeks' gestational age (the
blighted ovum).
Obstetrical Ultrasound
• First Trimester Screening
• In 2007, the American College of Ob Gyn endorsed offering
aneuploidy screening to all gravidas
• Performed between 11 and 13 weeks 6 days (fetal crown–rump
length 42–79 mm).
• Fetal nuchal translucency and maternal blood, β-hCG and
pregnancy-associated plasma protein A (PAPP-A).
• This test can detect approximately 60-85% of fetuses with
Down syndrome, with a 5% false positive rate.2
• Abnormal screen can increase the risk of genetic, other
aneuploidies and other cardiac anomalies
Obstetrical Ultrasound
•
•
•
•
•
•
•
Nuchal translucency:
Translucent space between the back of the
neck and the overlying skin
The scan is obtained with the fetus in sagittal
section and a neutral position .
The fetal head (neither hyperflexed nor
extended, either of which can influence the
nuchal translucency thickness).
The fetal image is enlarged to fill 75% of the
screen, and the maximum thickness is
measured, from leading edge to leading edge.
(inner to inner measurement)
It is important to distinguish the nuchal
lucency from the underlying amnionic
membrane.
> 6 mm considered abnormal
Obstetrical Ultrasound
•
•
•
•
•
•
2nd Trimester Ultrasound (13 weeks-24 weeks)
Fetal survey:
Fetal number
Viability
Presentation
Fetal biometry
•
•
•
•
Amnionitic fluid
Placenta
Cervix
Fetal Anatomic screening
Obstetrical Ultrasound
• Cervical length
• Endovaginal probe, examine in dorsal lithotomy position
with empty bladder
• Normal cervix should have a length of 2.5cm or more from
10 weeks gestation until 36 week
• The width of the cervical canal at the level of the internal
os should be less than 4mm
• Document any evidence of funneling
• Optimal gestational age for cervical length assessment is
after 16 to 20 weeks gestation
• Assessment 20-24 weeks best time evaluation PTD
Obstetrical Ultrasound
• Transvaginal probe
• Full bladder
• Cervical Length:
internal os to external
os
Obstetrical Ultrasound
• Funneling
(percentage): internal
os to end of funneling
over total cervical
length)
Obstetrical Ultrasound
•
•
•
•
•
•
•
•
•
•
BPD:
Greatest accuracy between 12-28 weeks
(better>14 wks.)
The plane for measurement of head circumference
(HC) and bi-parietal diameter (BPD)must include:
Cavum septum pellucidum
Thalamus
Choroid plexus in the atrium of the lateral
ventricles.
Measure outer table of the proximal skull to the
inner table of the distal
HC:
Measure the longest AP length
(BPD + OFD) X 1.62
Obstetrical Ultrasound
• Abdominal circumference
• Determined on transverse view
at the level of the junction of the
umbilical vein, portal sinus, and
fetal stomach
• Measured from the outer
diameter to outer diameter
• Multiply mean diameter by 3.14
• Assessing fetal
weight/IUGR/macrosomia
Obstetrical Ultrasound
• Femur Length (FL):
• Aligning the transducer with the lower
end of the fetal spine and rotating
toward the ventral aspect of the fetus
• Can measure from 10 weeks onward
• Measurement origin to distal end of
shaft and shows two blunted ends
• Do not include femoral head or distal
epiphysis
• Femur image is at an angle of less than
30 degrees to the horizontal.
• It increases from about 1.5 cm at 14
weeks to about 7.8 cm at term.
• Humerus
• Measured similarly
Obstetrical Ultrasound
• Amnionitic Fluid
• AFI: measure four quadrants
of largest verticle pocket
• 5-20 cm. nl, 6-8 cm.
borderline, <5 cm
oligohydramnios
• Polyhydramnios is defined as
an amniotic fluid volume in
excess of 2000 mL. A single
pocket of fluid that is 8 cm or
larger
Obstetrical Ultrasound
• Placenta:
• Determining its upper and lower edges r/o
placenta previa
• With increasing gestational age, the placenta
increases in echogenicity because of increased
fibrosis and calcium content.
• This feature of placental maturation has led to a
grading of placentas from immature (grade 0) to
mature (grade 3).
• Placentolmegaly
Diabetes, fetal hydrops, Rh isoimmunization
• Small placenta:
• Severe IUGR (symmetrical/asymmetrical)
Grade 0
Grade 1
Grade 3
Obstetrical Ultrasound
• Abnormal placentas
• Placenta Previa
• found in approximately 5% of
second-trimester scans
• If detected at 15–19 weeks, it
persists in 12% of patients.
• If it is detected at 24–27
weeks, it may persist in up to
50%.
• Vasa Previa: membranous
insertion of cord where exposed
vessels cross internal os
Obstetrical Ultrasound
• Fetal anatomy:
• Head
•
•
•
•
•
Atrium of lateral ventricles
Choroid plexus assessment
Cerebellum
Cisterna magna
Nuchal fold
Obstetrical Ultrasound
• The atrium of lateral
ventricles should be less
than 10mm in diameter
(best measured at the
occipital horn).
• The choroid plexii should
be homogenous.
• Small, and sometimes
multiple, choroid plexus
cysts are a common
finding on high resolution
equipment.
• They are of doubtful
significance as an isolated
finding.
Obstetrical Ultrasound
The cerebellar diameter should approximately equal the weeks of gestation.
(Ex: 19weeks=19mm)
Cisterna magna: < 10mm
Nuchal fold: (outer edge of occipital bone to skin surface )
<6mm (between 17-20weeks).
• Face:
• Profile
• Nasal
bone
• Nose
• Lips
Obstetrical Ultrasound
•
•
•
•
•
Thorax
Lung volumes
Diaphphram
r/o CCAM
Congenital
diaphragmatic hernia
Obstetrical Ultrasound
• Fetal Circulation
•
•
•
•
•
•
•
Blood from the placenta is carried to the fetus by the
umbilical vein
About half of this enters the fetal ductus venosus and is
carried to the inferior vena cava
The other half enters the liver proper from the inferior
border of the liver.
The branch of the umbilical vein that supplies the right
lobe of the liver first joins with the portal vein.
The blood then moves to the right atrium of the heart.
In the fetus, there is an opening between the right and
left atrium (the foramen ovale), and most of the blood
flows through this hole directly into the left atrium from
the right atrium, thus bypassing pulmonary circulation.
The continuation of this blood flow is into the left
ventricle, and from there it is pumped through the aorta
into the body
Obstetrical Ultrasound
– Some of the blood entering the
right atrium does not pass
directly to the left atrium
through the foramen ovale, but
enters the right ventricle and is
pumped into the pulmonary
artery.
– In the fetus, there is a
connection between the
pulmonary artery and the aorta,
called the ductus arteriosus,
which directs most of this
blood away from the lungs
Obstetrical Ultrasound
• Cardiac Anatomy
• Four-Chamber View of the Heart
• The ultrasound beam is directed
perpendicular to the midchest plane
at the level of the heart.
• These chambers consist of the right
and left atrial and both ventricular
chambers
• Corresponding valves between them
http://www.fetal.com/FetalEcho/04%20Standard.html
Obstetrical Ultrasound
•
•
•
•
•
The heart is approximately one-third
the area of the chest, inclined to the
left 45 degrees to the midline.
The AP midline passes through the
left atrium and the right ventricle
The midline (AP) and the cardiac axis
(arrowhead on dashed line) intersect
and form the angle shown
Look for asymmetry in chamber size,
defects in the septum or displacement
of the heart
Detection rate 60-75% for anomalies
with 4 chamber view, higher with
outflow tracts
Obstetrical Ultrasound
• Sweep the transducer beam in a transverse plane from the level
of the four chamber view towards the fetal neck
• Right Outflow Tract
Left Outflow Tract
• Right outflow track comes
Comes off left ventricle
off right ventricle and bifurcates
continues into aortic arch
continues into pulmonary artery
and then to descending
aorta
Obstetrical Ultrasound
• Detect Fetal Heart Rate
• M-mode
Obstetrical Ultrasound
• Abdomen /Stomach
(presence, size, and
situs)
• Liver
• Cord Insertion:
• Ensure the abdominal wall
around the cord insertion
is intact
• No bowel has herniated
into the cord.
• 3-vessel
Obstetrical Ultrasound
• Kidneys/Bladder
• Kidneys
• Confirm the presence
and position of both
kidneys.
• Look for the anechoic
renal pelvis.
• The renal pelvis TS
diameter should be
less than 5mm.
Obstetrical Ultrasound
• Abnormal
• Renal:
• urethral atresia: large fetal
bladder (bl), urinary
ascites (asc), and
hydronephrotic kidneys
• Posterior urethral valves
with keyhole bladder
Obstetrical
Ultrasound
• Spine:
• Coronal or Sagital
of entire spine:
• cervical
• Thoracic
• Lumbar
• Sacral
• Transverse
assessment of
entire spine
Obstetrical Ultrasound
Upper Extremities
Normal
Abnormal
Fist clenched
Phocomelia
Obstetrical Ultrasound
• Lower Extremities:
Obstetrical Ultrasound
• Abnormal Ultrasounds
• Omphalocele
• Gastrochesis
Obstetrical Ultrasound
• Doppler Ultrasound
• Blood flow characteristics in the fetal blood vessels can be assessed
with Doppler 'flow velocity waveforms‘
• Diminished flow, particularly in the diastolic phase of a pulse cycle is
associated with compromise in the fetus.
• Various ratios of the systolic to diastolic flow are used as a measure of
this compromise.
• The blood vessels commonly interrogated include the umbilical artery,
the aorta, the middle cerebral artery, ductus venosus (DV) and
umbilical vein (UV)
• Abnormal uterine artery Doppler velocimetry and pre-eclampsia, intrauterine growth retardation and adverse pregnancy outcomes.
Doppler Ultrasound
• Ductus venosus leads directly into the vena cava to allows some blood
rich in oxygen and nutrients to be pumped out of the body without
passing through the capillary beds in the kidney.
• Abnormal waveforms in the ductus venosus may be key to predicting
right heart failure in the hypoxic fetus and an important indicator of
imminent fetal demise (Kiserud 1991).
• Reversed flow in the ductus venosus is an ominous sign.
Doppler Ultrasound
• The umbilical artery is
evaluated measuring the
blood flow velocity at
peak systole (maximal
contraction of the heart)
and peak diastole
(maximal relaxation of
the heart)
• These values are
computed into different
ratios like S/D or RI
Doppler Ultrasound
• Predict fetuses at risk
for anemia or hydrops
especially Rh
alloimmunized
pregnancies
• >1.5 MOM or ratios
can be used
Obstetrical Ultrasound
• Three-Dimensional
Ultrasound3D
• Display multiple longitudinal,
transverse, and coronal images.
•
Images may improve the
accuracy of anomaly detection
of the fetal face, ears, and distal
extremities
Obstetrical Ultrasound
• Abnormal 3D Images
Cleft lip
Cyclopia
Obstetrical Ultrasound
• 4D Ultrasounds that adds the element of
time to the 3D process.
• Offers live images
• Fetal changes like movement, kicking, reach
with hands and facial expressions can be
seen
Obstetrical Ultrasound
Obstetrical Ultrasound
• We invite you to visit our
website:
• www.secondopinion2.com
• [email protected]
By La Lura White M.D.
Maternal Fetal Medicine
Obstetrical Ultrasound
• Introduced in the late 1950’s
ultrasonography is a safe, noninvasive, accurate and cost-effective
means to investigate the fetus
• Computer generated system that uses
sound waves integrated through real
time scanners placed in contact with a
gel medium to the maternal abdomen
• The information from different
reflections are reconstructed to
provide a continuous picture of the
moving fetus on the monitor screen
Obstetrical Ultrasound
•
•
•
•
•
•
•
•
•
•
Indications:
Unsure last menstrual period
Vaginal bleeding during pregnancy
Uterine size not equal to expected for dates
Use of ovulation-inducing drugs confirm early pregnancy
Obstetric complications in a prior pregnancy: ectopic, preterm
delivery
Screen for fetal anomaly: abnormal serum screens, certain drug
exposure in early pregnancy, maternal diabetes. Rh
isoimmunization
Postdate fetus
Twins (monochorionic)
Intrauterine growth restriction (IUGR)
RADIUS study (1993) did not support routine US screening
Obstetrical Ultrasound
•
•
•
•
•
•
•
•
•
•
•
•
1st. Trimester (less than 12 weeks)
Gestational sac location / size / shape
Embryo
Yolk sac
Amnion
Fetal cardiac activity
Placental position/Umbilical cord
Amnionitic fluid
Fetal morphology >11 weeks)
Cranium
Heart
Stomach/Bladder/Cord insertion/presence of limbs, hands
and feet
Obstetrical Ultrasound
• Pre and peri-ovulation (1-2 weeks): ovarian
follicle matures and ovulation
• Conceptus (3-5 weeks): Corpus luteum,
fertilization, morula, blastocyst, bilaminar
embryo
• Embryonic (6-10 weeks): Trilaminar Cshaped embryo
• Fetal Phase: (11-12 weeks):
Obstetrical Ultrasound
(TVU)
Gestational sac: seen at 4 weeks, fluid
filled with echogenic border, grow at least
0.6 mm daily.15
Yolk sac: 33 days (4.7 wk)
Embryonic echoes: 38 days (5.4 w) with
embryo at 6 wk
In a normal pregnancy, the embryo should
be visible if the gestational sac is 25 mm
or larger in diameter.
Obstetrical Ultrasound
• An intrauterine gestational sac should be visualized by
transvaginal ultrasound with β-hCG values between 1000
and 2000 IU and abdominal exam 5500-6500 IU
• Visible heart activity: 43 days (6.1w)
• Normal heart rate at 6 weeks: 90-110 bpm
• At 9 weeks:140-170 bpm.
• At 8-9 weeks if nl heartbeat: no bleeding 3%loss
bleeding 13% loss
• At 5-8 weeks a bradycardia (<90 bpm) is associated with a
high risk of miscarriage.
Obstetrical Ultrasound
• CRL(Crown Rump Length):
• Longest length excluding
limbs and yolk sac
• Made between 7 to 13 weeks
• 3 days: 7-10 weeks
• 5 days: 10-14 weeks
• Fetal CRL in centimeters plus
6.5 equals gestational age in
weeks
Obstetrical Ultrasound
• Ultrasound findings in a
pregnancy destined to abort
include:
• A poorly-defined, irregular
gestational sac
• A large yolk sac (6 mm or
greater in size)
• Low site of sac location in the
uterus
• Empty gestational sac at 8
weeks' gestational age (the
blighted ovum).
Obstetrical Ultrasound
• First Trimester Screening
• In 2007, the American College of Ob Gyn endorsed offering
aneuploidy screening to all gravidas
• Performed between 11 and 13 weeks 6 days (fetal crown–rump
length 42–79 mm).
• Fetal nuchal translucency and maternal blood, β-hCG and
pregnancy-associated plasma protein A (PAPP-A).
• This test can detect approximately 60-85% of fetuses with
Down syndrome, with a 5% false positive rate.2
• Abnormal screen can increase the risk of genetic, other
aneuploidies and other cardiac anomalies
Obstetrical Ultrasound
•
•
•
•
•
•
•
Nuchal translucency:
Translucent space between the back of the
neck and the overlying skin
The scan is obtained with the fetus in sagittal
section and a neutral position .
The fetal head (neither hyperflexed nor
extended, either of which can influence the
nuchal translucency thickness).
The fetal image is enlarged to fill 75% of the
screen, and the maximum thickness is
measured, from leading edge to leading edge.
(inner to inner measurement)
It is important to distinguish the nuchal
lucency from the underlying amnionic
membrane.
> 6 mm considered abnormal
Obstetrical Ultrasound
•
•
•
•
•
•
2nd Trimester Ultrasound (13 weeks-24 weeks)
Fetal survey:
Fetal number
Viability
Presentation
Fetal biometry
•
•
•
•
Amnionitic fluid
Placenta
Cervix
Fetal Anatomic screening
Obstetrical Ultrasound
• Cervical length
• Endovaginal probe, examine in dorsal lithotomy position
with empty bladder
• Normal cervix should have a length of 2.5cm or more from
10 weeks gestation until 36 week
• The width of the cervical canal at the level of the internal
os should be less than 4mm
• Document any evidence of funneling
• Optimal gestational age for cervical length assessment is
after 16 to 20 weeks gestation
• Assessment 20-24 weeks best time evaluation PTD
Obstetrical Ultrasound
• Transvaginal probe
• Full bladder
• Cervical Length:
internal os to external
os
Obstetrical Ultrasound
• Funneling
(percentage): internal
os to end of funneling
over total cervical
length)
Obstetrical Ultrasound
•
•
•
•
•
•
•
•
•
•
BPD:
Greatest accuracy between 12-28 weeks
(better>14 wks.)
The plane for measurement of head circumference
(HC) and bi-parietal diameter (BPD)must include:
Cavum septum pellucidum
Thalamus
Choroid plexus in the atrium of the lateral
ventricles.
Measure outer table of the proximal skull to the
inner table of the distal
HC:
Measure the longest AP length
(BPD + OFD) X 1.62
Obstetrical Ultrasound
• Abdominal circumference
• Determined on transverse view
at the level of the junction of the
umbilical vein, portal sinus, and
fetal stomach
• Measured from the outer
diameter to outer diameter
• Multiply mean diameter by 3.14
• Assessing fetal
weight/IUGR/macrosomia
Obstetrical Ultrasound
• Femur Length (FL):
• Aligning the transducer with the lower
end of the fetal spine and rotating
toward the ventral aspect of the fetus
• Can measure from 10 weeks onward
• Measurement origin to distal end of
shaft and shows two blunted ends
• Do not include femoral head or distal
epiphysis
• Femur image is at an angle of less than
30 degrees to the horizontal.
• It increases from about 1.5 cm at 14
weeks to about 7.8 cm at term.
• Humerus
• Measured similarly
Obstetrical Ultrasound
• Amnionitic Fluid
• AFI: measure four quadrants
of largest verticle pocket
• 5-20 cm. nl, 6-8 cm.
borderline, <5 cm
oligohydramnios
• Polyhydramnios is defined as
an amniotic fluid volume in
excess of 2000 mL. A single
pocket of fluid that is 8 cm or
larger
Obstetrical Ultrasound
• Placenta:
• Determining its upper and lower edges r/o
placenta previa
• With increasing gestational age, the placenta
increases in echogenicity because of increased
fibrosis and calcium content.
• This feature of placental maturation has led to a
grading of placentas from immature (grade 0) to
mature (grade 3).
• Placentolmegaly
Diabetes, fetal hydrops, Rh isoimmunization
• Small placenta:
• Severe IUGR (symmetrical/asymmetrical)
Grade 0
Grade 1
Grade 3
Obstetrical Ultrasound
• Abnormal placentas
• Placenta Previa
• found in approximately 5% of
second-trimester scans
• If detected at 15–19 weeks, it
persists in 12% of patients.
• If it is detected at 24–27
weeks, it may persist in up to
50%.
• Vasa Previa: membranous
insertion of cord where exposed
vessels cross internal os
Obstetrical Ultrasound
• Fetal anatomy:
• Head
•
•
•
•
•
Atrium of lateral ventricles
Choroid plexus assessment
Cerebellum
Cisterna magna
Nuchal fold
Obstetrical Ultrasound
• The atrium of lateral
ventricles should be less
than 10mm in diameter
(best measured at the
occipital horn).
• The choroid plexii should
be homogenous.
• Small, and sometimes
multiple, choroid plexus
cysts are a common
finding on high resolution
equipment.
• They are of doubtful
significance as an isolated
finding.
Obstetrical Ultrasound
The cerebellar diameter should approximately equal the weeks of gestation.
(Ex: 19weeks=19mm)
Cisterna magna: < 10mm
Nuchal fold: (outer edge of occipital bone to skin surface )
<6mm (between 17-20weeks).
• Face:
• Profile
• Nasal
bone
• Nose
• Lips
Obstetrical Ultrasound
•
•
•
•
•
Thorax
Lung volumes
Diaphphram
r/o CCAM
Congenital
diaphragmatic hernia
Obstetrical Ultrasound
• Fetal Circulation
•
•
•
•
•
•
•
Blood from the placenta is carried to the fetus by the
umbilical vein
About half of this enters the fetal ductus venosus and is
carried to the inferior vena cava
The other half enters the liver proper from the inferior
border of the liver.
The branch of the umbilical vein that supplies the right
lobe of the liver first joins with the portal vein.
The blood then moves to the right atrium of the heart.
In the fetus, there is an opening between the right and
left atrium (the foramen ovale), and most of the blood
flows through this hole directly into the left atrium from
the right atrium, thus bypassing pulmonary circulation.
The continuation of this blood flow is into the left
ventricle, and from there it is pumped through the aorta
into the body
Obstetrical Ultrasound
– Some of the blood entering the
right atrium does not pass
directly to the left atrium
through the foramen ovale, but
enters the right ventricle and is
pumped into the pulmonary
artery.
– In the fetus, there is a
connection between the
pulmonary artery and the aorta,
called the ductus arteriosus,
which directs most of this
blood away from the lungs
Obstetrical Ultrasound
• Cardiac Anatomy
• Four-Chamber View of the Heart
• The ultrasound beam is directed
perpendicular to the midchest plane
at the level of the heart.
• These chambers consist of the right
and left atrial and both ventricular
chambers
• Corresponding valves between them
http://www.fetal.com/FetalEcho/04%20Standard.html
Obstetrical Ultrasound
•
•
•
•
•
The heart is approximately one-third
the area of the chest, inclined to the
left 45 degrees to the midline.
The AP midline passes through the
left atrium and the right ventricle
The midline (AP) and the cardiac axis
(arrowhead on dashed line) intersect
and form the angle shown
Look for asymmetry in chamber size,
defects in the septum or displacement
of the heart
Detection rate 60-75% for anomalies
with 4 chamber view, higher with
outflow tracts
Obstetrical Ultrasound
• Sweep the transducer beam in a transverse plane from the level
of the four chamber view towards the fetal neck
• Right Outflow Tract
Left Outflow Tract
• Right outflow track comes
Comes off left ventricle
off right ventricle and bifurcates
continues into aortic arch
continues into pulmonary artery
and then to descending
aorta
Obstetrical Ultrasound
• Detect Fetal Heart Rate
• M-mode
Obstetrical Ultrasound
• Abdomen /Stomach
(presence, size, and
situs)
• Liver
• Cord Insertion:
• Ensure the abdominal wall
around the cord insertion
is intact
• No bowel has herniated
into the cord.
• 3-vessel
Obstetrical Ultrasound
• Kidneys/Bladder
• Kidneys
• Confirm the presence
and position of both
kidneys.
• Look for the anechoic
renal pelvis.
• The renal pelvis TS
diameter should be
less than 5mm.
Obstetrical Ultrasound
• Abnormal
• Renal:
• urethral atresia: large fetal
bladder (bl), urinary
ascites (asc), and
hydronephrotic kidneys
• Posterior urethral valves
with keyhole bladder
Obstetrical
Ultrasound
• Spine:
• Coronal or Sagital
of entire spine:
• cervical
• Thoracic
• Lumbar
• Sacral
• Transverse
assessment of
entire spine
Obstetrical Ultrasound
Upper Extremities
Normal
Abnormal
Fist clenched
Phocomelia
Obstetrical Ultrasound
• Lower Extremities:
Obstetrical Ultrasound
• Abnormal Ultrasounds
• Omphalocele
• Gastrochesis
Obstetrical Ultrasound
• Doppler Ultrasound
• Blood flow characteristics in the fetal blood vessels can be assessed
with Doppler 'flow velocity waveforms‘
• Diminished flow, particularly in the diastolic phase of a pulse cycle is
associated with compromise in the fetus.
• Various ratios of the systolic to diastolic flow are used as a measure of
this compromise.
• The blood vessels commonly interrogated include the umbilical artery,
the aorta, the middle cerebral artery, ductus venosus (DV) and
umbilical vein (UV)
• Abnormal uterine artery Doppler velocimetry and pre-eclampsia, intrauterine growth retardation and adverse pregnancy outcomes.
Doppler Ultrasound
• Ductus venosus leads directly into the vena cava to allows some blood
rich in oxygen and nutrients to be pumped out of the body without
passing through the capillary beds in the kidney.
• Abnormal waveforms in the ductus venosus may be key to predicting
right heart failure in the hypoxic fetus and an important indicator of
imminent fetal demise (Kiserud 1991).
• Reversed flow in the ductus venosus is an ominous sign.
Doppler Ultrasound
• The umbilical artery is
evaluated measuring the
blood flow velocity at
peak systole (maximal
contraction of the heart)
and peak diastole
(maximal relaxation of
the heart)
• These values are
computed into different
ratios like S/D or RI
Doppler Ultrasound
• Predict fetuses at risk
for anemia or hydrops
especially Rh
alloimmunized
pregnancies
• >1.5 MOM or ratios
can be used
Obstetrical Ultrasound
• Three-Dimensional
Ultrasound3D
• Display multiple longitudinal,
transverse, and coronal images.
•
Images may improve the
accuracy of anomaly detection
of the fetal face, ears, and distal
extremities
Obstetrical Ultrasound
• Abnormal 3D Images
Cleft lip
Cyclopia
Obstetrical Ultrasound
• 4D Ultrasounds that adds the element of
time to the 3D process.
• Offers live images
• Fetal changes like movement, kicking, reach
with hands and facial expressions can be
seen
Obstetrical Ultrasound
Obstetrical Ultrasound
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website:
• www.secondopinion2.com
• [email protected]
