Chapter-9-Normal-Pregnancy-and-Care-of-Developing-Fetus.pptx

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THE GROWING FETUS
 STAGES OF
FETAL
DEVELOPMENT
 1. F E RT IL IZAT I ON

a. Equal maturation of both sperm and ovum
b. Ability of the sperm to reach the ovum
c. Ability of the sperm to penetrate the zona pellucida and
cell membrane

Functional Ovum: 24-48 hours
Functional Sperm: 48-72 hours
Successful: 72 hours
 2. IMPL ANTATION

usually occurs high in the uterus on
the posterior surface.

If the point of implantation is low in
the uterus, the growing
placenta may occlude the
cervix and make birth of the
child difficult (placenta previa)
because the placenta can
block the birth canal
 Serves as
a buffer
against
injury

After penetration 32 cells
of 23
chromosomes
ovum and 23
chromosomes
sperm

Mitotic cell
division 16-50 cells
occurs
 TERM USED TO DENOTE
FETAL GROWTH

Name Time Period

Ovum From ovulation to fertilization

Zygote From fertilization to implantation

Embryo From implantation to 5-8 weeks

Fetus From 5-8 weeks until term

Conceptus Developing embryo or fetus and placenta
structures throughout pregnancy
3. EMBRYONIC AND FETAL
STRUCTURES
 A. THE DECIDUA

Uterine endometrium to continue to grow in
thickness and vascularity instead of sloughing off
as in a usual menstrual cycle
 B. CHORIONIC VILLI:

11th to 12th day
Reach out from throphoblast
cells into the endometrium
to begin formation of the
placenta.
Central Core: Connective
tissues and cappiliaries and
produces placental
hormones

Middle Layer: Langhans
layer
 C. THE PL ACENTA:

Grows from a few identifiable
trophoblastic cells at the
beginning of pregnancy to an
organ 15 to 20 cm in diameter
and 2 to 3 cm in depth, covering
about half the surface area of
the internal uterus at term

placenta provides nutrients to
and removes wastes from the
fetus from the third month of
pregnancy until birth. The
placenta is formed from the
chorion, its chorionic villi, and
the adjacent decidua basalis.
 D. CIRCUL ATION:

12th day: maternal blood begins to collect in the intervillous spaces
of the uterine endometrium surrounding the chorionic villi.
3rd week: O2 and other nutrients are transported to the embryo
Uteroplacenta blood flow: 50ml/min to 500-600ml/min at term
The uteroplacental circulation carries oxygenated arterial blood
from the maternal circulation to the intervillous spaces—large
spaces separating chorionic villi in the placenta. B
Heart rate and Cardiac output increases
Placenta weighs 400-600g (smaller vs bigger placenta)
 ENDOCRINE FUNCTION

1. Human Chorionic Gonadotropin: Fail-safe measure to
ensure the corpus luteum of the ovary continues to produce
progesterone and estrogen so the endometrium of the
uterus is maintained.
Suppressing the maternal immunologic response so
placental tissue is not detected and rejected as a foreign
substance.
2. Progesterone: necessary to maintain the endometrial
lining of the uterus during pregnancy
3. Estrogen: contributes to the woman’s mammary gland
development in preparation for lactation and stimulates
uterine growth to accommodate the developing fetus.
4. Human Placental Lactogen (Human Chorionic
Somatomammotropin) hPL is a hormone with both growth-
promoting and lactogenic
Serves the important role of regulating maternal glucose,
protein, and fat levels so adequate amounts of these
nutrients are always available to the fetus.
 AMNIOTIC MEMBRANES

A dual-walled sac with
the chorion as the
outmost part and the
amnion as the innermost
part
A M N I O T I C F LU I D

Term: 800-1200ml
Purpose: shield the fetus against pressure or a blow to the
mother’s abdomen
protects the fetus from changes in temperature
muscular development
protects the umbilical cord from pressure
Hydramnios (more than 2,000 ml in total or pockets of fluid
larger than 8 cm on ultrasound)
oligohydramnios or a reduction in the amount of amniotic
fluid.
Amniotic fluid: 7.2 (alkaline) Vs Urine: 5.0 to 5.5 (acidic)
 UMBILICAL CORD

is formed from the fetal membranes, the amnion and
chorion, and provides a circulatory pathway that connects
the embryo to the chorionic villi of the placenta. Its function
is to transport oxygen and nutrients to the fetus from the
placenta and to return waste products from the fetus to the
placenta.
Wharton Jelly
21 inch and 0.75 inch at term
One vein (carries blood from placenti villa to fetus), two
arteries (carries blood from fetus back to placental villi)-
Record
Cord Coil (hypocoiling vs hypercoiling)
 ORIGIN AND
DEVELOPMENT OF ORGAN
SYSTMES
Following the moment of fertilization, the zygote, which later
becomes an embryo and then a fetus, begins to grow at an
active pace.
1. Stem Cells- the first 4 days of life, zygote cells are termed
totipotent stem cells, or cells so undifferentiated they have
the potential to grow into any cell in the human body
After 4 days: cells begin to show differentiation or lose their
ability to become any body cell
pluripotent stem cells VS multipotent
2. Zygote Growth
Cephalocaudal
P R I M A RY G E R M L AY E R S

Body organ systems develop
from specific tissue layers
called germ layers.

At the time of implantation,
the blastocyst already has
differentiated to a point at
which three separate layers
of these cells are present: the
ectoderm, the endoderm, and
the mesoderm

8 weeks gestation (the end of
the embryonic period). During
this early time of
organogenesis (organ
formation), the growing
structure is most vulnerable
to invasion by teratogens
CARDIOVASCULAR SYSTEM
Cardiovascular System Is the
first system to function.

Simple blood cells joined to the
walls of the yolk sac progress to
become a network of blood
vessels and a single heart tube,
which forms as early as the 16th
day of life and beats as early as
the 24th day
 FETAL CIRCUL ATION

Differs from extrauterine circulation because the
fetus derives oxygen and excretes carbon dioxide
not from gas exchange in the lungs but from
exchange in the placenta.
 FETAL HEMOGLOBIN

It has a different
composition (two α and two
γ chains compared with two
α and two β chains of adult
hemoglobin).

HbF is a form of
haemoglobin which has a
stronger oxygen affinity than
adult hemoglobin, this
increases oxygen transport
to the fetus within the uterus
by capturing oxygen from
the placental vasculature
which has much lower
oxygen tension than in the
lungs.
R E S P I RAT O RY S Y S T E M
Other important respiratory developmental milestones
include:
Spontaneous respiratory practice movements begin as
early as 3 months gestation and continue throughout
pregnancy.
Specific lung fluid with a low surface tension and low
viscosity forms in alveoli to aid in expansion of the alveoli
at birth; it is rapidly absorbed shortly after birth.
Surfactant (Lecitin and sphingomyelin)-, a phospholipid
substance, is formed and excreted by the alveolar cells of
the lungs beginning at approximately the 24th week of
pregnancy.
This decreases alveolar surface tension on expiration,
preventing alveolar collapse and improving the infant’s
ability to maintain respirations in the outside environment
at birth.
Check for Fetal lung maturity; bethametasone
 NERVOUS SYSTEM

A neural plate (a thickened portion of the ectoderm) is
apparent by the third week of gestation.
The top portion differentiates into the neural tube, which
will form the central nervous system (brain and spinal
cord), and the neural crest, which will develop into the
peripheral nervous system.
All parts of the brain (cerebrum, cerebellum, pons, and
medulla oblongata) form in utero, although none are
completely mature at birth. Brain growth continues at
high levels until 5 or 6 years of age.
By 24 weeks, the ear is capable of responding to sound,
and the eyes exhibit a pupillary reaction, indicating sight
is present.
DIGESTIVE SYSTEM

Forms during the 4th week – fetus
begins to swallow amniotic fluid
during second trimester.
Atresia
Rapid intestinal growth by 6th wk:
Omphalocele and Gastrochisis
Meconium: is a sterile, dark
greenish brown, semisolid residue
of bile and embryonic secretions
plus cellular waste (epithelial
tissue) and hair swallowed in utero.
Presence of meconium in amniotic
fluid before delivery usually
indicates fetal hypoxia
Check for passage of Meconium
Hypoglycemia and
hyperbilirubenia-liver function is
still immature
 ENDOCRINE SYSTEM

Fetal pancreas produces insulin (insulin don’t
cross the placenta)

Thyrpid and parathyroid glands: metabolic
function and calcium balance
 MUSCULOSKELETAL
SYSTEM

Bones and muscles are developed from
mesoderm by 4 th week.
Muscle contract spontaneously by 7th week
and can be seen to move in utz as early as 11th
week.
 REPRODUCTIVE
SYSTEM
Can be determined as
early as 8 weeks or 10
weeks
Wolfian or Mullerian duct
Born with undescended
testes
 URINARY
SYSTEM
Urine is formed on
the 12th week and
excreted into
amniotic fluid by 16th
week of gestation.

Fetal urine:
500ml/day
 INTEGUMENTARY
SYSTEM

36 weeks: subcutaneous fat begins to
deposited underneath
Lanugo and Vernix caseosa present at birth
 IMMUNE SYSTEM

The immunoglobulin that crosses the placenta
from maternal antibodies is IgG 20th-24thweek
(passive acquired immunity). Temporary
passive immunity against:
Polio, rubella, rubeola, diptheria, mumps, hep b
and pertusis
 https://www.youtube.com/watch?
v=EhUOkTPW7L0
ASSESSMENT OF FETAL
GROWTH
 Health History
GDM, HD, Medications,
Food Intake, COVID19,
Injuries
Physical Assessment
Weight
Aappearance
Assessing Fetal
Growth and Health
Fetal Growth:
McDonald's rule is the
measurement of the
fundal height from the
symphysis pubis.
Fetal Heart Rate
Fetal Movement
10 kicks under 1 hr
 In rhythm strip testing,
the fetal heart rate is
assessed if a good
baseline heart rate or a
degree of variability is
present. The results are
categorized as absent
(none apparent), minimal
(extremely small
fluctuations), moderate
(a range of 6-25 beats
per minute), and marked
(range over 25 beats per
minute).
 A nonstress test monitors an
unborn baby's heart rate for 20 to
30 minutes to see if it changes as
the fetus moves and during
contractions. It is called
"nonstress" because doing it
places no stress on the fetus.

Vibroacoustic Stimulation
Acoustic stimulator applied to the
abdomen
No spontaneous acceleration occurs
within 5 mins-apply 1 to 2 sound
stimulation.
 ULTRASOUND

Diagnose pregnancy as early as 6
weeks gestation. Before the procedure:
Confirm the presence, size, and
Full bladder
location of the placenta and amniotic
fluid. Prevent hypotension-
Establish a fetus is growing and has
place towel on the right
no gross anomalies such as
hydrocephalus; buttock
Anencephaly; or spinal cord, heart, Gel shoukl be warm
kidney, and bladder concerns.
Establish the sex if a penis is
revealed.
Establish the presentation and
position of the fetus.
Predict gestational age by
measurement of the biparietal
diameter of the head or Crown-to-
rump measurement.
Discover complications of pregnancy
To detect a retained placenta or poor
uterine involution in the new mother
 BIPARIETAL DIAMETER

Ultrasonography may be
used to predict fetal
maturity by measuring
the biparietal diameter
(side-to-side
measurement) of the
fetal head.
 D OP P L E R PL ACENTAL
UM B IL IC AL
VE LOC IM E T RY GRADING

Placentas can be graded by
measures the velocity at ultrasound based on the
which red blood cells in particular amount of
calcium deposits present in
the uterine and fetal the base.
vessels travel. Placentas are graded as:
0: between 12 and 24
weeks
1: 30 to 32 weeks
2: 36 weeks
3: 38 weeks (Because fetal
lungs are apt to be mature
by 38 weeks, a grade 3
placenta suggests the fetus
is mature.)
 AMNIOTIC NUCHAL
FLUID TRANSLUCENC
VOLUME Y

Between 28 and 40
weeks, the total pockets
of amniotic fluid
revealed by sonogram
average 12 to 15 cm.
BIOPHYSICAL PROFILE
 MAGNETIC RESONANCE
IMAGING

A fetal assessment technique because it can
identify structural anomalies or soft tissue
disorders
 MATERNAL SERUM
A number of trophoblast cells pass into the maternal
bloodstream beginning at about the seventh week of
pregnancy
Maternal Serum α- Maternal Serum for
Fetoprotein Pregnancy-Associated
Plasma Protein A
AFP is a substance is a protein secreted by
produced by the fetal the placenta;
liver that can be found low levels in maternal
in both amniotic fluid
blood are associated with
and maternal serum fetal chromosomal
(maternal serum α- anomalies,
fetoprotein [MSAFP]) (trisomies 13, 18, and 21
Assessed at the 15th or small-for-gestational-
week of pregnancy, age (SGA) babies)
between 85% and 90% A high PAPP-A level may
of neural tube anomalies predict an LGA baby
and 80% of babies with
Down syndrome can be
detected by this method
 QUADRUPLE SCREENING

Quadruple screening
analyzes four indicators of
fetal health: AFP,
unconjugated estriol (UE; an
enzyme produced by the
placenta that estimates
general well-being), hCG
(also
produced by the placenta),
and inhibin A (a protein
produced by the placenta
and corpus luteum
associated with Down
syndrome)
 FETAL GENDER

Although fetal
gender is usually
determined by an
ultrasound screen at
about 4 months, it
can be determined
as early as 7 weeks
by analysis of
maternal serum.
 INVASIVE FETAL TESTING
Amniotic fluid (obtained through amniocentesis, Fig. 9.14) can be
analyzed for:
AFP
Acetylcholinesterase
Bilirubin determination.
Chromosome analysis.
Color. Normal amniotic fluid is the color of water; late in pregnancy, it
may have a slightly yellow tinge. A strong yellow color suggests a
blood incompatibility (the yellow results from the presence of bilirubin
released from the breakdown of red blood cells). A green color
suggests meconium staining, a phenomenon
Fibronectin: is a glycoprotein that plays a part in helping the placenta
attach to the uterine decidua, found in cervical mucous/vagina in later
pregnancy as an indicator of preterm labor
Inborn errors of metabolism: Examples of illnesses that can be
detected in this way are sickle cell disease, cystic fibrosis, muscular
dystrophy, Tay-Sachs disease, and maple syrup urine disease (an
amino acid disorder)
 Lecithin and sphingomyelin are the protein components of the
lung enzyme surfactant that the alveoli begin to form at the
22nd to 24th weeks of pregnancy. An L/S ratio of 2:1 is
traditionally accepted as lung maturity.

Phosphatidylglycerol and desaturated phosphatidylcholine.
These are additional compounds, in addition to lecithin and
sphingomyelin, found in surfactant. Mature lung function, if they
are present in the sample of amniotic fluid, it can be predicted
with even greater confidence that respiratory distress syndrome
is not likely to occur

 PERCUTANEOUS UMBILICAL
BLOOD SAMPLING

To ensure the blood obtained is fetal
blood, it is submitted to a Kleihauer–
Betke test, which measures the
difference between adult and fetal
hemoglobin.
If a PUBS test reveals that the fetus is
anemic, blood may be transfused into
the cord using this same technique

An intrauterine transfusion provides
blood to an Rh-positive fetus when
fetal red blood cells are being
destroyed by the Rh-sensitized
mother's immune system. This
treatment is meant to keep the fetus
healthy until the baby is mature
enough to be delivered.
 FETOSCOPY

The use of a fetoscopy, in which the fetus is
visualized by inspection through a fetoscope (an
extremely narrow, hollow tube inserted by
amniocentesis technique), can be yet another
way to assess fetal well-being

 Confirm the intactness of the spinal column.
 Obtain biopsy samples of fetal tissue and fetal
blood samples.
 Determine meconium staining is not present.
 Perform elemental surgery, such as inserting a
polyethylene shunt into the fetal ventricles to
relieve hydrocephalus or anteriorly into the fetal
bladder to relieve a stenosed urethra. It may be
possible to repair a neural tube defect such as
meningocele or improve the outcome of
myelomeningocele by fetoscopy
 ASSESSING FETAL WELL-BEING

Fetal Movement ▪ Triple Screening
Fetal Heart Rate ▪ Chorionic Villi Sampling
Ultrasound ▪ Amniocentesis
Placental Grading
▪ Lecithin/Sphingomyelin
Amniotic Fluid Volume Ration
Assessment ▪ Percutaneous Umbillical
Electrocardiography Blood Sampling
Magnetic Resonance ▪ Amnioscopy
Imaging
▪ Fetoscopy
Maternal Serum Alpha-
Fetoprotein
--END--