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Pregnancy and Human Development
I.
From Egg to Embryo
A. Terms
1. Pregnancy=events occurring from the time of fertilization (conception) until the infant
is born.
2. Conceptus=developing offspring.
3. Gestation period=extends from the last menstrual period until birth (280 days).
4. Pre-embryo=also simply called conceptus, first two weeks following fertilization.
5. Embryo=from the third through the eight weeks after fertilization.
6. Fetus=ninth week through birth.
7. Infant=at birth.
B. Accomplishing fertilization
1. Fertilization=fusion of sperm and egg.
d. Zygote=a fertilized egg or the first cell of the offspring.
2. Sperm transport and Capacitation
a. Only a few hundred thousand sperm in a males ejaculate actually make it to the
uterine tubes.
b.
Fertilization requires capacitation
i. Capacitation=the sperms membranes must become fragile
so that the hydrolytic enzymes in their acrosomes can be released.
ii. Sperm penetration through the corona radiate and zona
pellucida surrounding the oocyte is accomplished by release of
hyaluronidase, acrosin, etc. by many sperm.
iii. Fusion of the plasma membrane of a single sperm with the
oocyte membrane is followed by engulfment of the sperm by the
oocyte cytoplasm and the cortical reaction.
C. Pre-embryonic Development
1.
Cleavage occurs as the pre-embryo travels through the uterine tube and floats freely in
the uterus.
a.
Cleavage is a period of fairly rapid mitotic divisions of the zygote following
fertilization. Hyperplasia vs. Hypertrophy
i. 2-cell stage at about 36 hours after fertilization.
ii. 4-cell stage at about 48 hours.
iii. 8 cell stage at about 72 hours.
iv. Morula=solid ball of cell that are 16 cells big or more.
b. Blastocyst=the morula hollows out and fills with fluid then “hatches” from the
zona pellucida.
i. Trophoblasts=constitute the large flattened cells of the
blastocyst which take part in placenta formation and secrete
HCG to prompt the corpus luteum to continue secreting
progesterone in order to maintain the endometrium.
ii. Inner cell mass=a cluster of small rounded cells that
becomes the embryonic disc.
2.
3.
Implantation
a.
When the blastocyst reaches the uterus, it floats freely in the uterine cavity for
two or three days, receiving nourishment from the uterine secretions.
b.
Six or seven days after ovulation, the trophoblast cells embed into the
endometrium and begin secreting digestive enzymes and growth factors
against the endometrial surface.
c.
As the endometrium is eroded, the blastocyst burrows into the thick, velvety
lining and is surrounded by a pool of blood leaked from degraded endometrial
blood vessels.
d.
The chorion develops from the trophoblast cells starting to give rise to the
placenta.
e.
The chorion then develops chorionic villi which extend into the endometrium
where they are in contact with maternal blood.
Placenta Formation
a.
Functions to exchange waste products and blood gases.
II.
Embryonic Development
A. The blastocyst is converted into the gastrula in which the embryonic membranes develop and
the three primary germ layers form. The process by which the embryonic tissues are formed is
called gastrulation.
1. The embryonic membranes form as the inner cell mass splits to form an upper and
lower cell layer.
a. Amnion=develop from the upper cells of the splitting inner cell mass. This sac
fills with amniotic fluid that provides a buoyant environment that protects the
developing embryo.
b. Yolk sac=forms from the lower cells of the inner cell mass. It serves to form
part of the digestive tube, produces the earliest blood cells and blood vessels,
and is the source of primordial germ cells of the embryo’s gonads.
c. Allantois=forms as a small out-pocketing at the caudal end of the yolk sac.
Acts as the structural base of the umbilical cord and becomes part of the
urinary bladder.
d. Chorion=develops from proliferating trophoblast cells and helps to give rise to
the placenta.
2. During the third week, the primary germ layers form along the embryonic disc.
a. Ectoderm=gives rise to skin and nervous system
b. Endoderm=gives rise to the functional linings of the digestive, respiratory,
and urogenital systems as well as to associated glands.
c. Mesoderm=Forms muscle, bone, blood vessels, kidneys and all the other
components of organs (except linings).
3. Circulation in fetus versus newborn
a. Fetal circulation has several adaptations so that the lungs and liver are largely
bypassed because they are non-functional.
i. The umbilical vein carries oxygen- and nutrient-rich blood from
the placenta to the fetus.
ii. The umbilical arteries carry waste-laden blood from the fetus to
the placenta.
iii. The ductus arteriosus and foramen ovale to partially
bypass the lungs.
iv. The ductus venosus allows blood to partially bypass the
liver.
b. Changes in the cardiovascular system occur at birth.
i. The umbilical vessels are occluded (blocked).
ii. The ductus venosus, ductus arteriosus, and foramen ovale also
occlude.
III.
Events of Fetal Development
A. 9 to 12 weeks
1. Head still dominant with brain enlargement continuing and cervical and lumbar
enlargements of the spinal cord are obvious.
2. Skin epidermis and dermis are obvious; facial features in crude form.
3. Blood cells formation begins in bone marrow.
4. Sex readily detected from the genitals.
B. 13-16 weeks
1. Sucking motions of lips occurs.
2. Face looks human and body beginning to outgrow head.
3. Kidneys attain typical structure.
4. Most bones are now distinct and joint cavities are apparent.
C. 17-20 weeks
1. Fetal position assumed because of space restrictions.
2. Limbs near-final proportions.
3. Muscular activity of fetus increases.
D. 21-30 weeks
1. Increase in weight.
2. Eyes are open.
3. Body is lean and well proportioned.
4. Testes reach scrotum in seventh month.
E. 30-40 weeks
1. Skin whitish pink; fat laid down in subcutaneous tissue.
V.
Parturition (Birth)
A. Initiation of labor
1. When estrogen levels are sufficiently high, they induce oxytocin receptors to increase
on the myometrial cells and inhibit progesterone secretion by the placenta. Weak
irregular contractions begin.
2. Fetal cells produce oxytocin, which stimulates prostaglandin production by the
placenta. Both hormones stimulate contraction.
3. Increasing stress causes the hypothalamus of the mother to cause oxytocin release by
the pituitary gland (posterior).
B. Stages of labor
1. Dilation stage=rhythmic contractions occur until the cervix dilates 10 cm. The head
of the fetus rotates and descends through the pelvic outlet.
2. Expulsion stage=extends from full cervical dilation until birth of the infant.
3. Placental stage=delivery of the afterbirth.
C. Lactation
1. The breasts are prepared for lactation during pregnancy by high blood levels of
estrogen, progesterone, and placental lactogen. Oxytocin is important in stimulating
the “let down” phase.
2. Colostrum (a pre-milk fluid that is a fat-poor fluid that contains more protein, vitamin
A, and minerals than true milk) is produced towards the end of the pregnancy and for
the first 2-3 days after birth.
3. True milk is produced around day 3 in response to suckling which stimulates the
hypothalamus to prompt the pituitary gland to secrete even more prolactin and
oxytocin.
Phenotype: physical expression of a genetic trait.
Genotype: organisms full internal heredity.