4/11, 14 Endocrinology/Phys of Pregnancy & Delivery

Question 1

definiton of labor

Answer 1

physiologic process by which the uterus expels the fetus and placenta at >20wks

(<20 wks = “abortion”)

Question 2

clinical diagnosis of labor?

Answer 2

painful uterine contractions that cause cervical effacement and dilatation

Question 3

how does the baby know when its time to come out? How does the baby, or mom, make this happen at the right time? To answer this, mention at least 4 signaling factors that change during the initaiton of parturition.

Answer 3

initiation of parturition - involves:

• progesterone withdrawal - increased levels during pregnancy up until 32-34 weeks and then it tends to level off.; medically it is used to relax the uterus or stop pre-term labor
• oxytocin - increased levels after the initiation of labor
• fetal cortisol - “shift in balance” of progesterone relative to estrogen (incr E production due to fetal conversion of DHE-AS to E)
• prostaglandins (PGE2, PGF2) - hh levels released around labor
• Uterus contractions from the fundus (top portion of uterus)

Question 4

Substances that uterine irritability and contractility

Answer 4

• estrogen
• oxytocin
• PGF2α

Question 5

Substances that decrease uterine irritability (smooth muscle to relax)

Answer 5

• progesterone
• ß2-agonists

Question 6

How does the uterus go from contracting asyncrhonously to sychronously?

Answer 6

• Initially the uterus contracts without synchronicity because there aren’t that many gap junctions present
• When progesterone relative to estrogen decreases (in other words, more estrogen is being produced) during labor, prostaglandins increase, the uterus and cervix distends, and the brain releases oxytocin, which causes the smooth muscles to express more gap junctions and become more coordinated in their contractions

Question 7

What 2 factors induces labor?

Answer 7

• prostaglandins dramatically increase as soon as labor starts and help remodel cervix and initiate labor 24hrs earlier
• oxytocin
  
  • uterine contractions -

assist the uterus in clotting the placental attachment point postpartum
* acts at the mammary glands, causing milk to be ‘let down’

Question 8

What controls parturition?

Answer 8

Corticotropin-releasing hormone (CRH)

Question 9

What produces CRH? What does it indicate?

Answer 9

• produced by the placenta
• maternal blood CRH levels predicts when labor will beging

Question 10

What are the effects of CRH? name at least 2

Answer 10

• increase fetal adrenal production of **DHEA-S **(dihydroepiandrosterone sulfate)

increase fetal adrenal production of cortisol

Question 11

What is the role of DHEA-S in parturition?

(what signals its production?)

Answer 11

• produced in the placenta via CRH signaling
• placenta converts DHEA-S -> Estrogen
  
  • Progesterone levels remain high but the ratio of E to P is now shifted (due to increased conversion in the placenta)
• resultant increased E:P ratio is conducive to uterine contractions (remember progesterone keeps the uterus “quiet”)

Question 12

What is the role of fetal cortisol in parturition?

(what signals its production?)

Answer 12

• Cortisol INCREASES production of placental CRH (+ feedback) -> increased CRH production
• Cortisol -> fetal lung maturation (surfactant proteins, phospholipids) and increase prostaglandin -> cervical remodeling, inflammatory infiltrate, and matrix MMP

Question 13

What is the role of increased prostaglandins during parturition?

Answer 13

increase prostaglandin -> cervical remodeling, inflammatory infiltrate, and matrix MMP

Question 14

3 phases of pregnancy?

Answer 14

• Phase 0 = Pregnancy - “functional quiescence”, uterus is kept quiet via inhibitors such as progesterone, prostacyclin, relaxin, NO
• Phase 1 = Uterine priming - release of inhibition as well as uterotropins such as estrogens -> increase ion channels, gap junctions
• Phase 2 = Stimulation/Labor (increase uterine irritability and contractility) by prostaglandins E2, F2a, oxytocin

Question 15

3 stages of labor?

Answer 15

• Prodrome- prelabor changes; may take days (braxton contractions)
• Stage 1- from beginning of labor until full cervical dilation (10 cm); hours
• Stage 2- from full dilation to delivery of fetus; minutes
• Stage 3- from delivery of fetus to delivery of placenta and membranes; minutes

Question 16

What are “braxton contractions”?

Answer 16

• sporadic uterine contractions that sometimes start around 6 wks into a pregnancy; thought to prepare the uterus for birth.
• prodromal labour or “practice contractions”

Question 17

What are the phases of the prodromal stage of partuition?

Answer 17

• Cervical ripening (by prostaglandins) - collagen chains break, incr. hydrophilic glycosaminoglycans, incr. H2O g softer, thinned out cervix
• Lightening - dropping (baby drops into the pelvis); mom notices more room to breathe, eat, and increased sensation to pee
• Passage of the mucus plug (may be bloody = big glob)
• Braxton-Hicks contractions - from 10 wks on, non-propagated (non-synchronous), may not be felt by patient

Question 18

Difference btwn false labor and true labor?

Answer 18

FALSE labor

• Irregular contractions
• Interval may stay same
• Walking may make it less painful
• Abdominal pain only
• Contractions Subside

TRUE labor

• Regular contractions
• Interval decreases (hfrequency)
• Walking makes worse
• Abdomen AND back pain
• Mild sedation has no effect on contractions

Question 19

3 P’s of labor?

Answer 19

Power

Passenger

Passage

Question 20

What are the signaling mechansims that make the myometrium contract?

Answer 20

• Gap junctions allow rapid transmission and coordination of contraction signals; marked increase in #s in late pregnancy
• Connexin43 - impt gap junction
• Making the contraction:

increase intracellular calcium in myometrial cells -> incr. activity of Ca Calmodulin complex -> incr. MLCkinase -> **contraction **

Question 21

What kind of cells are myometrial cells?

Answer 21

interwoven bundles of smooth muscle cells arranged in a spiral arrangement; when these contract, uterus decreases in size (contractions happen in multiple dimensions of the uterus)

Question 22

What factors make for a good contraction?

Answer 22

• Covers entire uterus
• Gradient so all parts reach peak at same time
• Intrauterine pressure about 50-60 mmHg above baseline (<20mmHg)
• Frequency - every 2-4 minutes
• Complete relaxation btwn contractions to allow for rest and blood flow to myometrium and baby

Question 23

How can contractions can be measured?

Answer 23

tocodynamometry (internal or external) - absolute numbers aren’t meaningful: relative numbers have meaning (because any movement can result in a “contraction of the abd wall)

Question 24

What are the 4 effects of contractions?

Answer 24

• Cervical effacement - obliteration (shortening) of cervical canal and thinning of cervix
• Cervical dilatation - enlargement of cervical opening
• Fetal descent to lower station (through pelvis)
• PAIN

Question 25

There are 2 stages of pain during pregnancy. What are they?

How do you block each stage?

Answer 25

Stage 1:

• contractions -> cervical dilatation
  
  • pain is carried via visceral afferents (sympathetic) of T10,11,12
• alleviation:
  
  • nonpharmacologic methods (breathing)
  • epidural (L3-5) removes sensations from the waist down

Stage 2:

• distention of pelvic floor, vagina, perineum
  
  • pain transmitted via sensory branches of pudendal nerve S2,3,4
• alleviation
  
  • pudendal, local nerve block (epidural may not be good enough for perineal pain)

Question 26

What 3 things can you employ to stop contractions/labor?

Answer 26

• Ca channel blocker (or Mg sulfate)
• oxytocin receptor antagonists (not commonly used)
• increase intracellular cAMP -> negative feedback

Question 27

What factors complicate the PASSAGE of baby through the pelvis?

Answer 27

baby’s head has to fit through these pelvic structures.

• Ischeal spines + ischeal tuberosity + coxxyx = affects exit of baby
• Pubic symphysis + sacroiliac joints = most fluid in a mature pelvis

Question 28

Definition of lie.

Answer 28

long axis of fetus to long axis of mom (aka longitudinal, oblique, transverse)

Question 29

definition of presentation/presenting part

Answer 29

what can be felt on vaginal exam, a point of reference

• cephalic (=vertex)
• breech (when the fetus’s head is opposite of the cervical os)
• shoulder

Question 30

definition of position

Answer 30

relationship of baby’s head to the four quadrants of maternal pelvis; can be felt and manually manipulated (Leopold maneuvers) ->

• OA = occiput anterior (baby’s occiput is anterior side of mom); usual position
• OP = occiput posterior (sunny side up!)
• ROT = R Occiput transverse (baby’s occiput is to mom’s right)
• LOT = L Occiput transverse (baby’s occiput is to mom’s left)

Question 31

definition of Attitude

Answer 31

relationship of fetal parts to itself (flexed, military, extended)

Question 32

definition of Dystocia

causes? solutions?

Answer 32

Dystocia=difficult labor (i.e. when it is not working)

• Power: uterine dysfunction -> augmentation (oxytocin), pain relief, amniotomy
• Passenger: abnormalities of size, presentation, development (ie hydrocephalus) -> change maternal position, fetal position
• Passage: abnormalities of pelvic size or architecture -> change maternal position to open pelvis

Question 33

What are complications of SVD (spontaneous vaginal delivery)?

Answer 33

• Nuchal cord
• Meconium
• Shoulder dystocia
• Fetal heart rate abnormalities

Question 34

Cards from hereon out are from the endocrinology of Pregnancy lecture on 4/11

Answer 34

Cards from hereon out are from the endocrinology of Pregnancy lecture on 4/11

Question 35

How to determine if one is pregnant
?

Answer 35

• Measure from the first day of her last menstrual period (LMP)
  
  • if a woman has a 28d cycle, she ovulates on d14
• Pregnancy test: hCG detected by a maternal serum or urine pregnancy test

Question 36

What does corpus luteum produces?

Answer 36

• progesterone
• 17-alpha hydroxy progesterone
• estradiol
• androstendione

corpus luteum produces a HEAP of hormones!

Question 37

What hormones does the placenta produce. Be specific.

Answer 37

Syncytiotrophoblast – acts like a pituitary

• hCG
• estriol

Cytotrophoblast – has individual cells, acts as a hypothalamus

• dIA
• CRH

Question 38

2 cell types of the placenta that produces hormones

Answer 38

Syncytiotrophoblast

Cytotrophoblast

Question 39

hCG

what produces it?

When is it first detectable?

what is its main role?

When do levels begin to decline?

Answer 39

• produced by Syncytiotrophoblast (Pituitary-like peptides)
• first detectable with a pregnancy test ~8-10d post conception
• roles:
  
  • maintain the corpus luteum during the first trimester to allow it to secrete progesterone
  • fetal:maternal immunity (prevents mom from attacking baby
  • stimulate adrenal and placental steroidogenesis
  • stimulate fetal testes in males to induce internal virilization
• By 120d = significant decrease in hCG production as the placenta takes over and begins to make more estrogen and progesterone

Question 40

What other peptide does hCG resemble?

Answer 40

LH and hCG are very similar (they have the same a chain, but the a different ß chain to confer specificity)

Question 41

what is the role of hCG in fetal/maternal immunity?

Answer 41

Downregulate maternal lymphocyte function (hCG is highly (-) charged and may repel maternal immune cells from entering the placental, thereby protecting the fetus (= hCG allows the mother to carry a genetically dissimilar person inside them)

Question 42

What is the rule of thumb when determining if there is a viable pregnancy?

Answer 42

hCG should increase by at least 66% every 48 hours in early pregnancy (first 7-8 weeks)

If this does not occur, you should be concerned for an ectopic, molar (placental tissue only, high hCG), loss (high hCG), or multiple gestations (high hCG)

Question 43

Patient with vide variation in maternal levels in her first trimester. Are you concerned?

Answer 43

no. this is normal according to the prof, but it should increase by at least 66% every 48 hours in early pregnancy (first 7-8 weeks)

Question 44

Estrogen & Progesterone

When can it first be detected?

Answer 44

• Estradiol and progesterone secretion by conceptus (zygote) and cumulus (granulosa) detectable in vitro before implantation, but the rises are more obvious once its implanted

Question 45

Estrogen

made by what?

functions?

Answer 45

• made by fetus, placenta and maternal compartment
• roles
  
  • increase uterine blood flow
  • ∆ = blood, skin, breast development, respiration, GI, carbohydrate metabolism

Question 46

primary estrogen of pregnancy

Answer 46

Estriol; rapidly cleared

Question 47

Progesterone

made by what?

functions?

Answer 47

initially made by the corpus luteum (6-10 wks) and then by placenta production; transition period is marked by a transient decrease in circulating levels at 8-10 wks

functions

• Decidual reaction
• Decrease myometrial contractility
• Increase stretchiness of uterine muscle
• Breast development
• most important; allows pregnancy to continue

Question 48

endorphins

produced by what?

function?

Answer 48

placenta

make pregnancy a bit more pleasant

Question 49

CRH

produced by what?

function?

Answer 49

placenta

regulates pregancy (increase DHEA-S and cortisol)

Question 50

What is the QUAD SCREEN?

When is it offered?

Answer 50

test that measures 4 proteins to determine chromosomal abnormalities or defects

• AFP
• Estriol
• hCG
• Inhibin A (dIA)

offered during the second trimester at about 15-21 weeks

Question 51

What is AFP?

What is it a marker of?

Answer 51

• protein made in fetal liver
• first biochemical marker for fetal trisomy 21 or spina bifida
  
  • Trisomy 21: LOW AFP
  • neural tube or body wall defects: HIGH AFP; released into the ammonic fluid and crosses the placenta

Question 52

Estriol

What makes it?

What is it a marker of?

Answer 52

• produced by Syncytiotrophoblast
• marker of trisomy 21: LOW

Question 53

What is HcG? What produces it??

Answer 53

• produced by Syncytiotrophoblast
• marker of trisomy 21: HIGH

Question 54

Inhibin A (dIA)

made by what?

marker of?

Answer 54

• Cytotrophoblast
• trisomy 21: HIGH

Question 55

What does Trisomy 21 show on the quad screen?

Answer 55

• AFP = low
• Estriol = low
• hCG = high
• Inhibin-A = high

hCG, Inhibin = **HI **

also alphabetically, first two are low, last two are high

Question 56

Prostaglandins

made by what?

roles in myometrium?

role in cervical ripening?

role in the fetus?

Answer 56

• made in amnion/chorionic membranes of placenta
• Roles in the myometrium (uterine smooth muscle)
  
  • stimulate contractility
  • enhanced response of uterine tonicity to PGE2 and PGF2α when progesterone is elevated
• role in labor
  
  • increase cyclic uterine contractions at term and augments uterine responsiveness to oxytocin.
• roles in cervical ripening
  
  • PGE2 remodels the collagen matrix to allow for it to become more pliable (goes from feeling like a nose cartilage to a stick of butter on a warm day)
• roles in the fetus
  
  • prevent closure of the ductus arteriosus.
    
    • PG inhibitors induce early closure of the ductus arteriosus (NSAIDs); therefore, only use PG inhibitors for preventing preterm labor with great caution

Question 57

Why would you use PGE2 during pregnancy?

Answer 57

• mid-trimester or at term: Cervical ripening / induction of labor
• termination of pregnancy