EMBRYOLOGY LC6: Birth Defects and Prenatal Diagnosis PDF

Summary

This document is about birth defects and prenatal diagnosis. It explains the causes, risks, and types of congenital abnormalities. It also outlines prevention strategies and prenatal diagnosis techniques. This information is useful for medical professionals.

Full Transcript

Embryonic period/organogenesis
OUTLINE - 3rd to 8th week of development - the risk of development of birth
defects or congenital anomaly is highest. This is the time that the
I. BIRTH DEFECTS organs of the fetus are being developed. It does not mean that on or
II. CAUSES after this period that the fetus will not develop any congenital
III. RISKS anomaly if the mother is exposed either to environmental
IV. TYPES OF ABNORMALITIES teratogens, drugs, medicines, or any other exposures. For example, if
V. PREVENTION the mother is exposed to the patient with measles during the 3rd to
VI. PRINCIPLES OF TERATOLOGY 8th week, the measles might cause congenital cataract to the fetus.
VII. PRENATAL DIAGNOSIS The mother might not have the measles, but the baby might have a
A. Non-invasive Technique congenital anomaly.
B. Invasive Technique
VIII. TREATMENT Fetal period
- 9th week – birth

I. BIRTH DEFECTS

Birth defects are also called as: Congenital malformation / Congenital anomaly
- Structural, behavioral, functional, metabolic disorders present at
birth. The structural deformities in the skeletal or muscular system
or on any organs in the body cannot be seen by the naked eye. The
behavioral, functional, and other metabolic disorders can be seen
when the baby will grow up, but it is already present at birth. It
results in congenital defects like anomalies.
- Approximately 3% of birth defects are leading causes of infant
mortality
- 5th leading cause of years of potential life lost prior age 65
- Major contributor to disabilities: congenital or birth defects. Other Figure 2. Risk of Birth Defects being induced
contributors: noncommunicable diseases.
- Non-discriminatory, frequencies of birth defects are the same of all The graph shows the times of gestation versus the risks of birth defects being
races, same for Asians, Whites, Americans. It depends upon the induced. The most sensitive time is the embryonic period during the third to
mother’s exposure. eighth weeks. The fetal period begins at the end of the eighth week and
extends to term. During this time, the risk for gross structural defects being
induced decreases, but organ systems may still be affected. For example, the
II. CAUSES brain continues to differentiate during the fetal period, such that toxic
exposures may cause learning disabilities or intellectual disability. The fact
that most birth defects occur prior to the eighth week makes it imperative to
55%: Interaction of environment with genetic susceptibility
initiate birth defects prevention strategies prior to conception. Unfortunately,
30%: Genetic factors (Hereditary from mother or father)
most women do not appear for their first prenatal visit until the eighth week,
15%: Environmental factors
which is after the critical time for prevention of most birth defects
○ Example: exposure of the mother to radiation or exposure
to the medicines and drugs during pregnancy.
IV. TYPES OF ABNORMALITIES

1. MALFORMATION: occur during formation of structures; period of
organogenesis; all or none rule; physical characteristics
caused by environmental and/or genetic factors acting independently
or in concert.
Most malformations have their origin during the third to eighth
weeks of gestation
Some complex combinations of defects, such as those observed in
cases of heterotaxy, may have their origins where the embryonic axes
are being specified as early as the second week.
Example: the mother took a drug (thalidomide) during 3rd to 8th week
of development; this will affect the long bones and the baby will
have phocomelia.
○ Thalidomide – given as antinauseant (treat morning
Figure 1. Graph of the major causes of birth defects sickness) and as a sedative to pregnant women.
○ Amelia - one or more limbs was absent
○ Phocomelia - lacking the long bones such that only a
III. RISKS
hand or foot was attached to the torso

L-R axes period
- Peak of the risk: 3rd week of development

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4. SYNDROME: Group of symptoms or anomalies occurring together that
have specific common cause; risk of occurrence is known.
Since the cause is known, we already know when this will occur,
e.g. DOWN SYNDROME (aka Trisomy 21, a mutation in
chromosome 21; producing extra copy of chromosome 21 [trisomy
21])

Figure 3. Examples of phocomelia. Limb defects characterized by loss of the
long bones of the limb. These defects were commonly produced by the drug
thalidomide.

2. DISRUPTION: morphological alteration of already formed structures;
destructive processes; amniotic bands; physical deformation
Extremities have already formed, but there is alteration because of
destructive processes like the presence of amniotic bands.
Vascular accidents leading to transverse limb defects and defects
produced by amniotic bands are examples of destructive factors
that produce disruptions.

Figure 6. Characteristics of Down Syndrome

5. ASSOCIATION: nonrandom appearance of 2 or more anomalies that occur
together more frequently than by chance alone.
Abnormalities just occur associated. Meaning there is another
cause.
The cause is not determined. Although they do not constitute a
diagnosis, associations are important because recognition of one or
more of the components promotes the search for others in the
group.

Figure 4. Limb abnormalities caused by amniotic bands. A) Cleft lip. B) Toe
amputations. C) Finger amputations. Strands of ammion may be swallowed or
become wrapped around structures causing various disruption-type defects.
The origin of the bands of amniotic tissue is unknown.

3. DEFORMATION: result from the mechanical forces that mold a part of the
fetus over a prolonged period; often involve the musculoskeletal (clubfeet);
reversible postnatal; physical deformity
- The extremities are already formed, but due to exposure to
oligohydramnios (small amounts of amniotic fluid), but can be
reversed after delivery.

Figure 7. Examples of Vacterl association with left pulmonary
Figure 5. Abnormal positioning of the lower limbs and clubfeet as examples of agenesis. A. Vestibular fistula with three openings in the vestibule, B.
deformations. These defects are probably caused by oligohydramnios (too computed tomography of the chest agenesis of the left lung,
little amniotic fluid). C. colostomy, D. club foot.

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V. PRINCIPLES OF TERATOLOGY Teratogen Congenital Malformations

Infectious Agents
Teratogens/Teratogenic agents – any agent that has been identified to cause
Rubella Virus Cataracts, glaucoma, heart defects,
birth defects.
hearing loss, tooth abnormalities
1. Susceptibility to teratogens depends on genotype of conceptus Cytomegalovirus Microcephaly, visual impairment,
and the interaction with the environment intellectual disability, fetal death
The parents already have these abnormalities present
in their genes, increasing the possibility and risk for Herpes simplex virus Microphthalmia, microcephaly, retinal
the fetus. dysplasia
If the anomaly is in the gene or if the mother was
exposed to environmental factors (x-ray, MRI, Varicella virus Skin scarring, limb hypoplasia, intellectual
radiation, or virus), increasing the risk for the fetus to disability, muscle atrophy
have the defect. Toxoplasmosis Hydrocephalus, cerebral calcifications,
The maternal genome is also important with respect microphthalmia
to drug metabolism, resistance to infection, and other
biochemical and molecular processes that affect the Syphilis Intellectual disability, hearing loss
conceptus.
Physical agents
2. Susceptibility to teratogens varies with the X-rays Microcephaly, spina bifida, cleft palate,
developmental stage at time of exposure limb defects
○ Exposure of mother to teratogen especially during the
3rd week to 8th week. Hyperthermia Anencephaly, spina bifida, intellectual
○ The most sensitive period for inducing birth defects is disability
the third to eighth weeks of gestation, the period
embryogenesis Chemical agents
○ Each organ system may have one or more stages of
Thalidomide Limb defects, heart malformations
susceptibility. For example, cleft palate can be induced
at the blastocyst stage (day 6), during gastrulation (day Aminopterin Anencephaly, hydrocephalus, cleft lip and
14), at the early limb bud stage (fifth week), or when palate
the palatal shelves are forming (seventh week)
○ Whereas most abnormalities are produced during Diphenylhydantoin (phenytoin) Fetal hydantoin syndrome: facial defects,
embryogenesis, defects may also be induced before or intellectual disability
after this period; no stage of development is
Valproic acid Neural tube defects, heart, craniofacial,
completely safe.
and limb anomalies, seizures
3. Manifestation of abnormal development depends on dose Trimethadione Cleft palate, heart defects, urogenital and
and duration of exposure to teratogens skeletal abnormalities
The higher/longer the dose of exposure to the
teratogen, the higher the risk of having the Topamax (topiramate) Cleft palate and/or cleft lip
abnormality.
Lithium Heart malformations
4. Teratogens act in specific ways on developing cells and tissues Selective serotonin reuptake Heart malformations, neural tube defects,
initiate abnormal embryogenesis (pathogenesis). inhibitors (SSRIs) anal atresia. facial clefts, and many other
Mechanisms may involve inhibition of a specific defects
biochemical or molecular process; pathogenesis
may involve cell death, decreased cell Ondansetron Facial cleft, heart defects
proliferation, or other cellular phenomena.
Opioids (codeine, hydrocodone, Neural tube defects, heart defects,
5. Manifestation of abnormal development are death, oxycodone) gastroschisis
malformation, retardation Amphetamines Cleft lip and palate, heart defects

*The conditions always depend on how the fetus will react or be Table 1. Teratogens Associated with Human Malformations
affected. Sometimes, slight retardation and malformation, the worst is
death.
VI. PREVENTION
For example, measles. Once the fetus is exposed even if the mother is
not affected, the baby may be born with cataract or any other
anomalies, worst fetal death. SUPPLEMENTATION
salt with iodine: to prevent mental retardation
folate/folic acid: to prevent neural tube defects.
Avoid alcohol and smoking to prevent mental retardation and other
physical abnormalities.
Metabolic control prior to conception such as obesity, diabetes
mellitus to prevent neural tube defects and other congenital defects.
Precaution on use of drugs because the placental barrier is not a
complete barrier. Example is anti-seizure drugs, which can pass the

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placental barrier and will cause neural tube defects and mental ○ AFP screening, combined with testing other second
retardation. trimester markers (e.g., human chorionic gonadotropin
Fat-soluble drugs are more likely to cross placental barriers. [hCG], unconjugated estriol, and inhibin A) can increase
the detection rate for birth defects using these serum
screening studies.
VII. PRENATAL DIAGNOSIS
c. Noninvasive prenatal screening
Goal: provide women-at-risk information that gives opportunity to Positive (+) results require confirmation by invasive technique
make informed choices about their pregnancy
*If there is a detection of abnormality upon non-invasive screening or
*During prenatal check-up, make a good prenatal history and give right the result becomes positive, proceed to invasive technique.
information to the mother to be informed and make choices. Not the
option to not continue the pregnancy, but guide them on what to do in INVASIVE TECHNIQUE
case there are anomalies. Set of ultrasound guided technique
Performed by a trained healthcare worker
HIGH RISK PREGNANCY: Performed to confirm positive noninvasive screening tests
Advanced maternal age (35 years and above) Results are after 1-2 weeks, unlike the immediate result of the
previous family history of genetic problem non-invasive
Presence of maternal disease - DM Also done if the pregnancy is HIGH-RISK like:
Abnormal UTZ or serum screening test ○ Advanced maternal age 35 years up
monitor if candidates of invasive technique ○ Previous family history of genetic problem
○ Presence of maternal disease- DM, hypercholesterolemia
NON-INVASIVE TECHNIQUE ○ Abnormal UTZ or serum screening test
a. Ultrasonography
Best done during the first trimester – 3rd week a. Amniocentesis
Measure the fetal skeletal a needle is inserted transabdominally into the amniotic
relatively noninvasive technique that uses high- frequency cavity (identified by ultrasound)
sound waves reflected from tissues to create images. approximately 20 to 30 mL of amniotic fluid is withdrawn.
may be transabdominal or transvaginal, with the latter take a sample of the amniotic fluid
producing images with higher resolution after the first trimester, usually on the 16th week or 20th
Important parameters revealed by ultrasound include: week
1. characteristics of fetal age and growth Takes about 2 weeks
2. presence or absence of congenital anomalies
3. status of the uterine environment, including b. Chorionic villi sampling
the amount of amniotic fluid inserting a needle transabdominally or transvaginally into
4. placental position (anterior, posterior or the placental mass and aspirating approximately 5 to 30
placenta previa) and umbilical blood flow mg of villus tissue
5. presence of multiple gestations Takes about 3 days

c. Cordocentesis or percutaneous umbilical blood sampling
Sample is taken from the blood of umbilical cord

Figure 9. Ultrasounds showing measures used to assess embryonic and fetal
Figure 8. Examples of the effectiveness of ultrasound in imaging the embryo and growth. A. Crown-rump (C-R) length in a 7-week embryo. B. Biparietal (B-P)
fetus. A. 6-week embryo. B. Lateral view of the fetal face. C. Hand. D. Feet. diameter of the skull. C. Abdominal circumference. D. Femur length (F-L).

b. Maternal Serum Screening
Check serum of mother VIII. TREATMENT
In 30th week, the fetus secretes Alpha Fetoprotein
AFP levels increase in amniotic fluid and maternal serum:
○ neural tube defects and several other abnormalities, a. Fetal medical: Treatment is given to the mother which will be
including omphalocele, gastroschisis, bladder exstrophy, passed to the fetus
amniotic band syndrome, sacrococcygeal teratoma, and
intestinal atresia b. Fetal surgery - open/fetoscopic
AFP levels decrease in: Done especially to the cardiac problem/blood vessel
○ Down syndrome, trisomy 18, sex chromosome problem/cranial cases
abnormalities, and triploidy Through an open surgery or fetoscopic surgery

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Performed by trained medical specialist and only if there a. Deformation
is no other remedy b. Disruption
Last choice of treatment c. Association
d. Syndrome
c. Stem cell transplantation and Gene therapy 3. What supplement prevents neural tube defects?
Still under research a. Vitamin B1
hematopoietic stem cells or progenitor germ cells are b. Vitamin B6
used c. Vitamin B9
d. Vitamin B12
d. Fetal transfusion 4. What drug can cause phocomelia or limb defects, heart
In cases of fetal anemia produced by maternal malformations, and amelia (total absence) or meromelia (partial
antibodies or other causes, blood transfusions for the absence of extremities) when taken during pregnancy?
fetus can be performed. Ultrasound is used to guide a. Topamax
insertion of a needle into the umbilical cord vein, and b. Thalidomide
blood is transfused directly into the fetus. c. Valproic acid
d. Amphetamines
*NEVER FORGET THIS ONE: 5. Over ⅓ of reproductive women experience this phase prior
conception that puts risks such as neural tube and heart defects to
the infant.
a. Pre-pregnancy obesity
b. Pre-pregnancy malnutrition
c. Pre-pregnancy diet
d. Pre-pregnancy excessive weight training
6. What kind of unprohibited activity during pregnancy can cause
intellectual disability in kids, which is also associated to Ventricular
septal defect (VSD) or a hole in the heart?
a. Smoking tobacco
b. Alcohol intake
c. Fat-soluble drug intake
d. Excessive weight training
7. It is a morphological alteration of already formed structures, which
can be produced by amniotic bands.
a. Deformation
b. Disruption
c. Association
d. Syndrome
8. What agents are pregnant mothers susceptible to if the anomaly
is in the gene or if the mother was exposed to environmental
Figure 10. The Menstrual Cycle. factors, there is a higher risk for the fetus to have a defect?
a. Infectious agents
b. Chemical agents
REFERENCES c. Radioactive agents
d. Teratogenic agents
Sadler, T. W., et.al. (2019). Langman's medical embryology (14th ed.). Lippincott 9. During the maternal serum screening in the 30th week, the fetus
Williams & Wilkins. secretes what protein to screen and test the fetus’ risks for having
Katzung, B. G. (2017). Basic and clinical pharmacology (14th ed.). McGraw-Hill genetic or birth defects?
Education. a. Steroid hormones
Tagnawa Trans b. Beta Fetoprotein
Images: c. Alpha Fetoprotein
Pawar, N., Singh, A., Gupta, A., & Tanger, R. (1970, January 1). Figure 1 d. Glycoprotein
from VACTERL association with left pulmonary agenesis in an infant: 10. It is an invasive technique that removes a sample cell from a
Semantic scholar. undefined. Retrieved November 19, 2022, from pregnant mother’s amniotic fluid to screen whether the fetus has a
https://www.semanticscholar.org/paper/VACTERL-association-with-left- genetic or chromosomal condition.
pulmonary-agenesis-in-Pawar-Singh/89bdc218a3a85e1ac30daaa1c905 a. Chorionic villi sampling
1ca02c145e71/figure/0 b. Gene therapy
Bull, M. J., & Author AffiliationsFrom the Division of Developmental c. Cordocentesis
Pediatrics. (n.d.). Down syndrome: Nejm. New England Journal of d. Amniocentesis
Medicine. Retrieved November 19, 2022, from
https://www.nejm.org/doi/full/10.1056/NEJMra1706537
Answers: 1. A, 2. C, 3. C, 4. B, 5. A, 6. B, 7. B, 8. D, 9. C, 10. D

TEST YOUR KNOWLEDGE
1. When is an unborn baby most at risk of developing birth defects?
a. First trimester
b. Second trimester
c. Third trimester
d. None of the above
2. It is a nonrandom appearance of 2 or more anomalies that occur
together more frequently than by chance alone.

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