Download - Embryonic Demise
The embryonic phase of development is complete by the end of the 10th G.wk
embryonic phaseembryonic phase
Although a variety of terms are used to describe early pregnancy failure, in the presence of clear-cut sonographic evidence that a nonliving embryo is present, the term embryonic demise should apply
Although a variety of terms are used to describe early pregnancy failure, in the presence of clear-cut sonographic evidence that a nonliving embryo is present, the term embryonic demise should apply
Early pregnancy loss
Only about 1/2 of zygotes persist as a clinical (symptomatic or noticeable) pregnancy.
Anatomic Points
True gestational sacs implant into the endometrial lining, and are seen
eccentric to the endometrial canal. Fluid collections within the canal are not true gestational sacs.
The Gestational sac and yolk sac are seen beginning at 4.5-5 weeks, before a recognizable embryo is seen
Anatomic Points
As the gestation enlarges into the endometrial cavity, only the early placenta need be in tight contact with the decidua. Small amounts of bleeding into the cavity are commonly seen, and may surround much of the gestational sac, but if the decidua basalis remains intact, the gestation can and usually does continue to develop normally.
Anatomic Points
Some causes of first trimester demise are well understood; however, in most instances, the etiology is unknown (Moore, 1998 )
causes
Chromosome abnormalities are the leading known cause of pregnancy loss. An estimated 6-7% of zygotes have chromosome aberrations (Moore, 1998),
and more than 95% of chromosomally abnormal concepti die in utero
causes
cytogenic abnormalities in 20% in women who undergo in vitro fertilization
(Bateman, 1992) and in 70% of women with spontaneous abortion
(Ohno, 1991). many chromosome aberrations increase with
advancing maternal age (Hook, 1981). This is particularly true for Down syndrome (trisomy 21) but is also evident with other less common trisomies
causes
environmental causes
immunologic factors, drugs, infectious agents, alcohol, smoking, environmental chemicals, radiation
environmental causes Exposure before 5 weeks gestational age
(GA), has an all-or-none result such that the embryo will either die or be unaffected (Moore, 1998).
(5-10 wk) usually affects organ development and results in either demise or severe congenital abnormalities.
Luteal phase defect Once implantation has occurred, another
cause of early pregnancy failure relates to an inability of the corpus luteum to adequately support the conceptus (Blumenfeld, 1992).
This condition, which tends to occur with maternal obesity and/or advancing maternal age, can be treated successfully during the embryonic phase of development by administrating human choriogonadotropin (hCG).and /or progestrone.
Uterine causes
A developmental uterine anomaly such as a
uterine septum or acquired uterine
anomalies such as submucosal, large, or
degenerating leiomyomas also can increase
the incidence of embryonic demise
Clinical Details
first trimester
50% fail
mild vaginal bleeding and/or
cramping
50%continue
25%25%
Clinical Details Clinical Details
Some women with embryonic demise will be asymptomatic, and in these patients the diagnosis may be suggested based on subnormal uterine growth,
Clinical DetailsClinical Details
The earliest visible gestational sac is seen at 4.5 weeks as an echogenic ring, with a tiny central hypoechoic area.
Gestational. Age (days)= 30 + Mean Sac Diam.(mm.)
To confidently diagnose an IUP, most sonographers rely on the double decidual sac (DDS) finding, which is not universally present until the MSD is 10 mm (40 days GA) (Nyberg, 1983).
Clinical DetailsClinical Details
This very small sac (arrow) is positioned within the
anterior endometrium. Note the linear central cavity echo
positioned just deep to the sac. This relationship
characterizes a normal-appearing intradecidual sac sign.
when using a transabdominal approach, cardiac activity should be visible by 8 weeks GA., 9 mm should be considered the discriminatory embryonic length for detecting cardiac motion
with a transvaginal approach. can detect cardiac activity approximately 2 weeks earlier or by 6 weeks GA. 5mm be considered the discriminatory embryonic length for detecting cardiac motion
Clinical Details
the discriminatory value
TAUS:8WK,
9mm,CR
25MSD
TVUS:6WK
5mm,CR 18MS18MSD
CardiacactivityCardiacactivity
Cardiacactivity
Cardiacactivity
A limitation of the transvaginal approach is if a
large pelvic mass is present. Most often, large
or strategically placed calcified uterine fibroids
cause this problem. Under these
circumstances, an abdominal approach
should be used in an effort to image the
uterus and its contents.
Clinical Details
Using a vaginal approach, the yolk sac should be observed by 5.5 weeks GA.
yolk sac
Clinical Details
Yolk sac should be seen when sac is 10mm. MSD by
vaginal probe, or 20 mm. MSD by abdominal probe.
Clinical Details
NORMAL YOLK SAC
TAUS
(MSD) is 20 mm
7 weeks
TVUS
MSD is10 mm
5.5 weeks
Yolk sac must be visible
Yolk sac
3mm
A normal appearing yolk sac (arrow) is seen on this transvaginal scan done at 5.5 weeks gestational age.
An abnormally large yolk sac is present (arrow) within this gestational sac. Diameter measured 10 mm. Follow-up imaging confirmed a failed pregnancy.
If a small saclike structure is imaged but it does not contain a yolk sac, it is often not possible to determine if the intrauterine finding is the result of an early IUP or a pseudosac associated with an ectopic pregnancy.
In these instances, careful evaluation of the adnexa may be helpful to detect an ectopic pregnancy. Occasionally, serial ultrasound and/or hCG determinations may be required to determine the etiology for the intrauterine sac
If no yolk sac
Visualizing a dead embryo
Visualizing a dead embryo using a transabdominal approach, 9 mm
should be considered the discriminatory embryonic length for detecting cardiac motion. Used in this manner,
( the discriminatory level denotes the numeric value when a certain finding should always be present. )
Visualizing a dead embryo when a transvaginal approach was used,
5 mm be considered the discriminatory embryonic length for detecting cardiac motion.
the discriminatory value
TAUS:8WK,
9mm,CR
25MSD
TVUS:6WK
5mm,CR 18MS18MSD
Cardiacactivity
Cardiacactivity
Visualizing a dead embryo an embryo exceeds the discriminatory length and
cardiac activity is absent, a nonviable gestation should be diagnosed.,
this observation should be made by two independent observers, and interpretive caution must be exercised in any questionable case. Documentation should be available by M mode imaging and/or by obtaining a videotape or video clip.
TVUS
TAUS
CRL>5MM
FETAL DEMISE
NO CARDIAC MOTION
CRL>9MMNO CARDIAC MOTION
Visualizing a dead embryo
If the length of the embryo is less than the discriminatory value, the patient should be managed expectantly,
a repeat ultrasound examination should be performed when the expected embryonic CRL exceeds the discriminatory value. Alternatively, or additionally, the level of serum hCG may be useful for determining whether a normal IUP is present.
Visualizing a living embryo
Although seemingly a paradox, it is well known that detecting cardiac activity when using a vaginal transducer does not guarantee as favorable an outcome as detecting cardiac activity when using an abdominal transducer
the vaginal approach detects cardiac activity earlier when the incidence of pregnancy loss is relatively higher.
Predicting a poor outcome
Predicting a poor outcome
a number of other important observations have been made, which, when observed with a living embryo, are predictive of a poor outcome (Falco 1996).
Predicting a poor outcomemean embryonic heart
rate (MEHR)mean gestational sac
size (MSS)
Abnormal yolk sac/amnion
Subchorionic hemorrhage
Abnormal sac criteria Doppler findings
At 5-6 weeks GA, the mean embryonic
heart rate is 101 beats per minute (bpm).
This rate increases to 143 bpm by 8-9 weeks GA
Predicting a poor outcome
(MEHR)
it is not unusual for an initially detected embryonic heart rate to be somewhat slower than the fetal heart rate recorded later in pregnancy. An unusually slow heart rate is cause for concern. In one study, all embryos from 5+ to 8+ weeks GA in which the heart rate was less than 85 bpm resulted in spontaneous miscarriage (Benson, 1994
Predicting a poor outcome
(MEHR)
At 5.5 weeks gestational age, the embryonic heart rate was 92 beats per minute. Follow-up scan revealed embryonic demise
Small sac size: From 5.5-9 weeks GA, the mean gestational sac size (MSS) is normally at least 5 mm greater than the CRL
Predicting a poor outcome
(MSS)
When this difference is less than 5 mm, the subsequent spontaneous abortion rate exceeds 90% (Bromley, 1991)
(MSS)
Predicting a poor outcome
This embryo was 8 weeks gestational age. Lack of fluid surrounding the embryo results in a disproportionately small sac. A follow-up scan 1 week later revealed demise
(MSS)
Subchorionic hemorrhage: As many as 18% of women with vaginal bleeding during the first half of pregnancy have sonographic evidence for a Subchorionic hemorrhage as the etiology for their bleeding (Pederson, 1990).
Subchorionic hemorrhage
Predicting a poor outcome
Early pregnancy bleeding
Subchorionic hemorrhage
18%
Several authorities have suggested that the size of the blood clot can be used to predict the outcome (Abu-Yousef 1987); this has not been universally accepted (Dickey, 1992).
Predicting a poor outcome
Subchorionic hemorrhage
A large Subchorionic hemorrhage is present superior to the gestational sac (white arrow). Follow-up scan revealed embryonic demise
Hemorrhage volume (Estimated from formula Length (cm) X Height (cm) X Depth (cm) X 0.52 = Volume ml), less then 75-200 ml. is often associated with continued development
Predicting a poor outcome
Subchorionic hemorrhage
Abnormal yolk sac/amnion
NORMAL YOLK SAC
TAUS
(MSD) is 20 mm
GA of 7 weeks
TVUS
MSD is 8 mm
GA of 5.5 weeks
Yolk sac must be visible
Abnormal yolk sac/amnion
The amnion develops somewhat earlier than the yolk sac, but because this membrane is so thin, it is more difficult to visualize than the yolk sac. Normally, the amnion is visible on transabdominal scans late in the embryonic period. If the amnion is easily seen, it is probably too thick and most likely is abnormal
Abnormal yolk sac/amnion
Other features consistent with pregnancy failure include a visible amnion without a simultaneously visible yolk sac, embryo, or cardiac activity. An enlarged amniotic sac is another sonographic sign that predicts a failed pregnancy or embryonic death (Horrow, 1992).
An abnormally large yolk sac is present (arrow) within this gestational sac. Diameter measured 10 mm. Follow-up imaging confirmed a failed pregnancy.
Doppler findings conflicting reports exist with regard to the
usefulness of first trimester Doppler for predicting pregnancy outcome. Some reports suggest if the resistive index is measured at the Subchorionic level and exceeds .55, a high likelihood of spontaneous abortion exists (Jaffe, 1995); however, others claim that Doppler analysis of these vessels are not predictive of outcome (Frates 1996).
Abnormal sac criteria
Abnormal sac criteria
An early normal intrauterine gestational sac often can be identified transabdominally by 31 days GA and can consistently be identified by 35 days GA. To confidently diagnose an IUP, most sonographers rely on the double decidual sac (DDS) finding, which is not universally present until the MSD is 10 mm (40 days GA) (Nyberg, 1983).
Abnormal sac criteria
By transabdominal approach, size criteria that unequivocally suggest an abnormal sac include
failure to detect a DDS when the MSD is equal to or greater than 10 mm,
failure to detect a yolk sac when the MSD is equal to or greater than 20 mm,
failure to detect an embryo when the MSD is equal to or greater than 25 mm (Nyberg, 1986).
Abnormal sac criteria
Using vaginal ultrasound, a normal intrauterine gestational sac can be detected reliably at 4-5 weeks GA, at which time the MSD approaches 5 mm. Using vaginal transducers, criteria that suggest an abnormal sac include
failure to detect a yolk sac when the MSD is 8 mm or greater, and
failure to detect cardiac activity when the MSD exceeds 16 mm (Levi, 1988)
Visualizing an "empty" gestational sac
The earliest appearance for a normal sac is a small fluid collection surrounded by high-amplitude echoes embedded in the decidualized endometrium. This appearance has been termed the “intradecidual sac sign” (IDSS)).
Visualizing an "empty" gestational sac
An "empty " gestational sac is the result of 1 of 3 entities:
1) a normal early IUP, 2) an abnormal IUP, or 3) a pseudogestational sac in a patient
with an ectopic pregnancy.
Using a vaginal approach, the mean diameter of this sac exceeded 20 mm. Neither a yolk sac nor embryo was visible. These findings are consistent with a "blighted ovum
DDS
MSD is
10 mm
TAUS
yolk sac
TAUS
MSD 20mm
embryo
TAUS
MSD 25mm
transabdominally
Note the irregular shape to this sac. In addition, the choriodecidual reaction is somewhat thin. Not surprisingly, this pregnancy failed.
Growth rate In normal gestation, mean sac growth is 1.13
mm/day; in comparison, mean sac growth in an abnormal intrauterine gestation is 0.70 mm/day (Nyberg, 1987).
Based on these observations, abnormal sac growth can be diagnosed confidently if the gestational sac fails to grow by at least 0.6 mm/day.
Choriodecidual appearance
This refers to the sonographic appearance of the echoes that surround an early intrauterine gestational sac. An abnormal appearance includes a distorted sac shape;
a thin (<2 mm), weakly echogenic, irregular choriodecidual reaction;
absence of the double decidual sac sign when the MSD exceeds 10 mm
The Living Embryo and threatened abortion
The Living Embryo and threatened abortion
The presence of an embryonic heartbeat is highly reassuring. When visualized by Low Resolution Abdominal sonography, more than 90% of pregnancies continue
Visualization by high resolution vaginal sonography is associated with a 70% continuance rate.
< 6 week.,
33% are lost With bleeding
16% are lost if no bleeding present
The Living Embryo and threatened abortion
7-9 week
10% are lost With bleeding
5 % are lost if no bleeding present
The Living Embryo and threatened abortion
9-11 week
4 % are lost With bleeding
2% are lost if no bleeding present
The Living Embryo and threatened abortion
The prognosis for the living embryo improves as
gestation proceeds
conclusion
Visualizing a central cavity complex
When the central cavity complex is abnormally thickened (and often irregularly echogenic), the differential diagnosis includes:
intrauterine blood, retained products following an spontaneous abortion,
decidual changes secondary to an early but not yet visible intrauterine pregnancy,
or a decidual reaction from an ectopic pregnancy.
Degree of Confidence If certain findings are not observed at the
appropriate time, if the ultrasound findings are equivocal, if the examination is technically difficult, or if the sonographer is inexperienced, caution is warranted.
The embryo always should be given the benefit of the doubt, and a follow-up ultrasound examination should be performed to obviate any risk of terminating a normal intrauterine pregnancy.
False Positives/Negatives
Prior to visualizing the yolk sac, it is often not possible to be certain if a small intrauterine saclike structure is due to an early intrauterine pregnancy (normal or abnormal), or a pseudosac associated with an ectopic pregnancy. This is because it may not be possible to clearly identify the DSS. Under these circumstances, a follow-up examination should be performed if clinically feasible.
Occasionally, a subchorionic hemorrhage may resemble a second intrauterine sac. However, since most of these women are bleeding, with careful scanning, the correct diagnosis usually can be made. Whenever uncertainty exists, perform a short interval follow-up examination at 5-7 days
False Positives/Negatives