Physiology of Pregnancy, Parturition, and Lactation Flashcards
What is the maternal side of the placenta, that is immediately apposed to the chorion frondosum, or fetal side of mature placenta?
Decidua basalis
3 major structures that make up the mature placenta
Chorionic villi
Intervillous space
Decidua basalis
Main functions of the placenta
Fetal “gut” supplying nutrients
Fetal “lung” exchanging O2 and CO2
Fetal “kidney” regulating fluid volume and disposing of waste
Endocrin gland synthesizing steroids and proteins that affect maternal and fetal metabolism
Endocrine functions of placenta
Maintaining pregnant state of uterus
Stimulating lobuloalveolar growth and function of maternal breasts
Adapting aspects of maternal metabolism and phys to support fetus
Regulating aspects of fetal dev’t
Regulating timing and progression of parturition
______ represent the functional unit of the placenta
Chorionic villi
[extensive branching and increased surface area for exchange]
_____ arteries from the maternal side of the placenta empty into the ______ space, which is drained by maternal veins
Spiral; intervillous
Describe maternal blood flow to fetus in terms of arterial and venous supply, as well as purpose of intervillous spaces
Arterial blood discharged from ~120 spiral aa., spurts into intervillous space
Filling of these spaces dissipates the force and reduces blood velocity
Slowing of blood flow allows adequate time for exchange of nutrients
Blood drains through venous orifices and enters placental veins (no capillaries are present!)
Principal factors regulating maternal blood flow
Geometry of blood vessels — spiral arteries are perpendicular and veins are parallel
Differences between maternal vs. fetal arterial and venous pressure
Patterns of uterine contractions — attenuate arterial inflow and interrupt venous drainage
Fetal blood flow originates from two umbilical arteries which carry ______ blood. These arteries branch and penetrate the ______ to form a chorionic villi capillary network, obtaining oxygen and nutrients and returning them to the fetus from a single umbilical vein
Deoxygenated; chorionic plate
Terminal dilations in the fetal capillary network offer _____ blood flow and thus improved exchange of nutrients
Slower
Describe pO2, pCO2, and pH of maternal blood entering the intervillous space
pO2 ~100 mm Hg
pCO2 ~40 mm Hg
pH of 7.4
[fetal pO2 is 23 umbilical aa., 30 in umbilical v.]
Diffusion of O2 into the chorionic villi causes the pO2 of blood in intervillous space to fall to 30-35 mm Hg and lower in umbilical v. of the fetus. What allows sufficient oxygen saturation in fetus?
Differences in hemoglobin structure make it higher affinity for O2, allowing sufficient Hb saturation
What drives CO2 transfer between mother and fetus?
Concentration gradient difference
Compare pCO2 in umbilical aa. vs. intervillous spaces near term
pCO2 ~48 mm Hg in umbilical aa.
pCO2 ~43 mm Hg in intervillous spaces
[concentration gradient driving CO2 to maternal side]
Describe affinity for CO2 in maternal vs. fetal blood
Fetal blood has slightly lower affinity for CO2 than maternal blood
T/F: all factors favor transfer of CO2 from fetus to mother
True
Other than concentration gradient-based passive diffusion, what are some other solute transfer mechanisms between mother and fetus?
Passive exchange (non-protein nitrogen wastes like urea/creatinine, lipid soluble hormones)
Facilitated diffusion (glucose to fetus)
Primary and secondary active transport to fetus to support growth (amino acids, vitamins, minerals)
Receptor mediate endocytosis (large molecule exchange like LDL, hormones, Abs)
2 important functions of amniotic fluid
Mechanical buffer
Fetus excretes waste products through it
How often does water in amniotic fluid “turn over”?
At least 1x/day
At >10-12 weeks, what provides 75% of amniotic fluid production?
Kidney excretions of fetus
Kidney excretions provide ~75% of amniotic fluid production, what provides the rest?
Pulmonary secretions
Fluid removal from fetus:
55% from ______
30% from ______
15% from _____
GI tract
Amnion
Lungs
The placenta plays a key role in manufacture of what biologic molecules?
Steroid hormones
Amines
Polypeptides (hormones and neuropeptides)
Proteins/glycoproteins
The placenta regulates release of local placental hormones as well as hormones into fetal or maternal circulation in _______ fashion
Paracrine
What cell type secretes hCG
Syncytiotrophoblasts
What is the significance of hCG being structurally related to LH?
It can bind LH receptors with high affinity
It rapidly accumulates in maternal circulation
How do levels of hCG change during pregnancy?
Serum levels double daily up to ~10 weeks (that’s when they are highest), then sharp followed by gradual decline
Primary function of hCG
Stimulates LH receptors in corpus luteum, preventing luteolysis
Maintains high levels of luteal derived progesterone
What hormone is thought to be responsible for nausea associated with morning sickness?
hCG
Small amounts of hCG enter male fetal circulation with what purpose?
Stimulate fetal Leydig cells to produce testosterone
What is the primary human chorionic somatomammotropin (hCS)?
Human placental lactogen (hPL)
What 2 hormones is hPL structurally related to?
Growth hormone and prolactin
What cells produce hPL?
Syncytiotrophoblast
When is hPL detected in syncytiotrophoblasts vs. in maternal serum?
Detected at day 10 in syncytiotrophoblasts and in maternal serum at 3 weeks
Functions of hPL
Coordinating metabolism of fetoplacental unit via conversion of glucose to fatty acids and ketones; can have antagonistic action to maternal insulin, contributing to GDM
Lipolytic actions help mother shift to free-fatty acid use for energy
Promotes development of maternal mammary glands during pregnancy
High levels of _____ are required throughout pregnancy for implantation and early maintenance of pregnancy
Progesterone
Where is progesterone derived from in pregnancy?
Corpus luteum
Primary functions of progesterone in pregnancy
Increased adhesion proteins in endometrium
Stimulates endometrial gland secretions for early nutrient transfer
Reduces uterine motility
Inhibits propagation of uterine contractions
Induces mammary growth and differentiation
What hormone is responsible for inducing endometrial growth, progesterone receptor expression, and LH surge just prior to ovulation?
Estrogen
Functions of estrogen:
Increases _____ blood flow
Increases _____ receptor expression in syncytiotrophoblasts
Induces _____ and ______ receptors necessary for parturition
Increases growth and development of ______ glands
Uteroplacental
LDL
Prostaglandins; oxytocin
Mammary
How do levels of hPL change throughout pregnancy
Gradual rise until parturition
How do levels of progesterone change throughout pregnancy
Gradual rise until parturition
How do levels of estrogen change throughout pregnancy
Gradual rise until parturition
Estradiol levels are highest, estriol exceeds estrone starting at around 30 weeks
T/F: during pregnancy, maternal levels of progesterones and estrogens decline to levels substantially lower than during a normal menstrual cycle
False; they are much higher than normal menstrual cycle
The placenta is an imperfect organ and cannot produce estrogens and progesterone along, so coordination between maternal, placental, and fetal tissues are required. The mother is responsible for supplying _____ for hormone production; the fetal _____ and ______ supply enzymes that the placenta lacks
Cholesterol; adrenal gland; liver
What enzymes for estrogen production are provided by the placenta?
3B-hydroxysteroid dehydrogenase
Aromatase
Sulfatase
What enzymes are provided by the fetus for estrogen production?
17a-hydroxylase
17,20-desmolase
16a-hydroxylase
A luteal-placental shift occurs around week ____ in terms of progesterone production. Its production is largely unregulated. Syncytiotrophoblasts import ____ from maternal blood; they express CYP11A1 and 3B-HSD1
Progesterone is released primarily into ______ compartment, thus maternal serum levels _____ throughout pregnancy
8; cholesterol
Maternal; rise
T/F: the placenta produces cholesterol
False, it cannot produce cholesterol
The placenta lacks 17a-hydroxylase and 17,20 desmolase needed for estrone and estradiol, as well as 16a-hydroxylase needed for estriol. What overcomes this?
The maternal-placental-fetal unit —
Mother supplies cholesterol
Fetal adrenal gland and liver supply enzymes needed, also produce DHEAS and 16a-OH-DHEAS (weak androgens)
T/F: the fetus avoids high levels of steroid hormones
True — the fetus lacks 3B-hydroxysteroid dehydrogenase and aromatase, thus no estrogen production
Fetus conjugates steroid intermediates to sulfate, reducing their activity
What organ completes the steroidogenesis of estrogens?
Placenta
The fetus conjugates steroid intermediates to sulfate, reducing their activity. So in the production of estrogen, _______ travels from the placenta to fetus. DHEA and 16a-hydroxyl-DHEA are _____while in fetus. As the DHEA and 16a-hydroxyl-DHEA-S move into the placenta, a ______ removes the sulfate groups. The placenta then completes steroidogenesis of estrogens
Pregnenolone; sulfated; sulfatase
Mean duration of human pregnancy
~266 days (38 weeks) from ovulation
Or ~280 days (40 weeks) from day 1 menstrual cycle
How does maternal blood volume change in response to pregnancy?
Blood volume increases
Total plasma volume increases 40-50%
Begins to increase in 1st trimester, rapid increase in 2nd and 3rd trimester
What system mediates the increase in maternal blood volume in response to pregnancy?
Renin-angiotensin-aldosterone system (augments renal reabsorption of salt and water)
How do maternal RBCs change in response to pregnancy? How does this affect hematocrit
RBC increase of 20-30%, mediated by increases in erythropoitin
Net result is a decrease in hematocrit
How does maternal cardiac output change in response to pregnancy?
Increased blood volume results in increase in heart rate (~15 bpm)
CO increases appreciably in 1st trimester, with slight increase at 2nd and 3rd trimester (overall 45% increase)
Increase in CO reflects mainly an increase in stroke volume but also heart rate
How does maternal mean arterial pressure change in response to pregnancy? Why?
Despite increase in plasma volume, MAP decreases mid-pregnancy with a rise during 3rd trimester (but still remaining lower than normal)
This is due to decrease in peripheral vascular resistance because of vasodilating effects of progesterone and estrogen
How does the increasing progesterone during pregnancy affect alveolar ventilation in the mother?
Increases it
Overall little effect on respiratory rate
Tidal volume increases markedly — 40% (decreases CO2 levels in maternal blood)
As fetus grows in late pregnancy, displacement of diaphragm can occur so lung expansion decreases
Maternal tidal volume markedly increases in pregnancy, thus decreasing CO2 levels in maternal blood. What condition can this lead to, and how is it compensated?
Mild respiratory alkalosis can occur; compensated for by kidney lowering plasma bicarb
In the maternal response to pregnancy there is an increased demand for what 3 dietary nutrients in particular?
Protein — need additional 30g/day for growth
Iron — need net gain of 800 mg circulating iron for expanding Hb mass (nonpregnant woman absorbs 1.5mg/day, pregnant woman requires 7mg/day)
Folate — increase in blood cells
A deficiency in folate in pregnancy leads to what type of birth defects?
Neural tube defects
Maternal GI tract changes in pregnancy
Morning sickness (usually resolves by 20 weeks when hCG decreases)
Mechanical changes — stomach displacement, changes in esophageal sphincter tone can lead to acid reflux
Decreased colonic motility — increased water absorption; constipation
What happens to maternal insulin in early pregnancy?
Increased secretion and sensitivity
What happens to maternal insulin response in the 2nd and 3rd trimester? Why?
Maternal insulin resistance develops
Shunts glucose to fetus; due to hPL, hGH, progesterone, cortisol, and prolactin
If insulin resistance in mother is too high, GDM can develop, resulting in increased maternal BG, as well as what changes in fetus?
Increased fetal glucose uptake and BG —> increased growth of fetus, chemical and cellular imbalances after birth - hypoglycemia, jaundice, polycythemia, and hypocalcemia
Human birth usually occurs at _____ weeks gestation, which is ______ weeks fetal age
~40; 38