Parturition: Normal Birth

Question 1

What exactly is labour?

Answer 1

Getting the fetus from the uterus to the outside world;

ie; uterine and cervical change which leads to the expulsion of the fetus and placenta.

Also prevention of haemorrhage so that mother survives, estabilshes lactation and nuture the newborn

Question 2

What are the 3 P’s of labour?

Answer 2

1. Passage: pelvis/birth canal
2. Power: driving force pushing baby out
3. Passenger: baby

Within a normal biological range, POWERS are the most important as the pelvis is very hard to get out

Question 3

Challenges in Human Parturition?

Answer 3

• Quiescence: of uterus with growth, distension. pressure (fetus + amniotic fluid)
• Timing: for safe birth
• Activation: stimulation of uterine musculature changes in genital tract
• Birth: fetal-neonatal adaptations (sudden loss of placental life-line)
• Involution: homeostasis, establishing lactation

Question 4

We can link the anatomical changes to the physiological changes of birth

Answer 4

Uterus: is quiet for ~280 days post LMP, and then changes itself from a tiny organ to a larger organ with two segments, and upper (muscular) and lower (part of cervix).

Then the myometrium is stimulated and forms many structures so that when the time is right they can expell a baby.

The cervix softens and shortens.

At some point the amniotic sac the baby’s in has to rupture.

Hormones allows the pelvis to move a bit “ligamentous laxity” : sacraliliac lig, and pubic symphysis moves!

Question 5

How does the uterus stay “quiet” or at a point of quiescense??

Answer 5

In fact it’s not totally quiet, the uterus is contracting all the time (bc it s a muscle).

But these are weak, of low amplitude (<10mmHg) and low frequency.

Poorly coordinated and the cervix is firm and closed.
Called Braxton-Hicks contractions and occur throughout pregnancy.

Question 6

What is the principle hormone to maintain quiescence?

Answer 6

Progesterone, produced from the corpus luteum (and placenta).

Although a multitude of hormones are required for this, it take more then >1 to be abnormal/removed before quiescence can be undone

Question 7

What affects Gestation Length?

Answer 7

• Parity (if you’ve had kids before GL: shorter)
• Age: older you are GL: shorter
• Genetics (maternal and paternal)
• Race/ethnicity

Question 8

How does being a human impact on gestation length?

Answer 8

• In addition to the other factors (age, ethnicity etc), we have stress (cytokines/steroid hormones) influence the length of gestation.

Extreme stress/infection → shorter GL

Question 9

Despite of influences on GL, the _______ is relatively tight.

Answer 9

Timing

280 d from LMP (37-42 weeks)

268 d from conception

BUT the # of weeks with the least risk of still birth is 38 weeks.

Question 10

What may activate the partuition

Answer 10

Activation involves the

• Fetal genome
• Uterine stretch-quadruplets preterm as can’t grow any more
• fetal HPA axis: if not these GL prolonged
• Upregulation of myometrium
• Melatonin and circadian rhythms
• ABNORMALLY if membranes rupture pre labour

Question 11

How does upregulation of the myometrium during partuition work?

Answer 11

Increas in CAPS form gap junctions (from protein connexin 43) which bind the muscle together for a stronger contraction.

Question 12

We can use the knowledge of myometrial contractility and CAPs to find drug targets

Answer 12

Increase myometrial contractility by….. antagonising Ca²⁼ blockers eg Nifedipine

Increase myocyte excitability ion channels …….block B₂ sympathomimetics eg salbutamol (to stop Ca²⁺flux)

increase intercellular connectivity gap junction…. antagonise with PG synthase inhibitors (COX1 and COX2)

Question 13

Usually in homeostasis there are controlling negative feedback loops, but in partuation, once you reach a certain level of stimulation, what happens?

Answer 13

There is now a positive-feedback loop past this point, so once all the connections are ready, you just need a little stimulation and the process will commence and uterus will contract.

***Progesterone modulate this whole process! Doesn’t change/drop like animals, is thought instead P₄ receptors are altered, and although the [p] is constant the receptivity changes (the uterus ‘hears’ less progesterone)

Question 14

What happens once the uterus “hears” theres less progesterone (due to altering P receptors)

Answer 14

The prostaglandins are the effector that go into the uterus, it is said labour is an inflammatory event.

Phospholipases release lots of arachodonic acid from decidua and cell membranes, but forming PG’s is the activator to this

Question 15

What do Prostoglandins have to do with labour; and how do we stimulate labour with this knowledge

Answer 15

• Increase myometrial (muscle) contractility
• Lead to cervical changes
• associated with membrane rupture

So How do we induce labour from this?

So we can give PG as gel or tablet
Artifically rupture membranes → let the amniotic fluid run out
Put finger up to cervix, move finger around and take membranes off → PG release

Question 16

What is Oxytocin?

Answer 16

Hormone nonapeptide from postpit. and genital tract

Syncinon is synthetic Oxytocin

Not essential for initiation of labour

Like PGs requires a gap junc. to be effective!

Used to induce and aument labour

Primary prevention of Post Partum Haemorrhage

Question 17

Describe the model of cervical ripening

Answer 17

Can be due to preterm (eg infection) or fullterm (normal) and sets off a cascade of events that slowly leads to cervical change.

Starts with an inflammatory even that leads to the ECM of cervix being completel degraded, and cervix effectively “disappears” so baby can come out

Question 18

Describe the visual and structural differences between

1. Normal Firm uneffaced cervix
2. Softened, ripened cervix

Answer 18

During pregnancy: Normal, firm uneffaced, long cervix
ECM: collagen (type I 70%, type II 30%) , Proteoglycans and elastin
Cells: SM, fibroblasts, BV’s, epithelium
Strong fibrous tough structure.

During partuation: Softened, ripened cervix

Question 19

What are the membranes that are ruptured for labour?

Answer 19

The amnion and chorion. (strong and fused during pregnancy)

• Site of PG production
  
  • so rupture of membranes ⇒ large PG release
• Rupture isn’t essential for labour (near the cervix)
• Rupture occurs at zone of altered morphology
• Amniotomy in normal labour has little effect on progress

Therefore by manually trying to rupture/tear membranes ⇒ release PGs ⇒ clinically induce labour

Question 20

Learn and describe this summary of changes during parturition

Answer 20

All of these changes need to occur in the different locations for normal birth to occur.

Question 21

What is happening at BIRTH

Answer 21

• We have Mature fetus and the timing is right
• Pelvic ligaments softened (extra +1cm on pelvic diameters)
• Uterus excitable and contractions coordinated
• cervix soft and easily dilateed
• Membranes may rupture; this gives more PGs and better mechanical benefits

Question 22

What are the stages of labour?

Answer 22

Stages:

1^st: until full dilatation (10cm) latent and active phase
2^nd: full dilatation until birth of baby (1-2hours)
3^rd: from birth of baby to delivery of the placenta

Not complete until placenta is out; otherwise mother will bleed out

Question 23

1^st Stage of labour; describe the latent and active phase

Answer 23

Latent Phase: nothing really happening (2-3cm) for many hours

Active Phase: cervix opens ~1cm/hour

When cervix is fully open at 10cm, there is pressure on the pelvic floor and mum wants to push!

Question 24

How does pariety change the first stage of Labour?

Answer 24

Takes significantly longer if this is you first baby, then if you’ve had 1 or more.

Question 25

The 1st stage of labour, what actually happens?

Answer 25

• CONTRACTIONS:
  
  • last ~90 seconds, a pressure rise wave, with 45 seconds of pain in the middle past a specific high Pressure
• Cervical effacement and dilatation (to 10m)
• Descent of the presenting part into birth canal
  
  • SRM- spontaneous rupture of membrane
  • ROM- Rupture of membranes
  • PROM- premature ROM

Question 26

What’s important to remember with the pain portion of uterine contractions?

Answer 26

This is when the pressure is extremely high, and the baby is effectively “holding it’s breath’ because the intervillous blood flow is being cut off.

The 3-4 minutes between contractions flushes out the CO₂ and a reoxygenation of the baby.

Dangerous if not a healthy strong baby!

Like snorkelling!

Question 27

Where/ how does the baby “descend’ during the first stage

Answer 27

Into the pelvis (hopefully) curled up into a ball head first.

Partogram watches progress.

• Baby come into pelvic inlet transversely
• Does 90º turn in pelvic cavity
• Comes out

Question 28

Importance of establishing continuous breathing at birth?

Answer 28

If a baby has a primary apnea; without intervention they will likely have another secondary apnea → Heart rate and blood pressure will drop.

90% transition easily
10% require some help to breathe
1% need major resuscitation

Question 29

Cardiovascular adaptations at birth in neonate?

Answer 29

1. Closure of foramen Ovale (L.atrium > R.atrium)
2. 100% Right ventricular ouput through lungs ⇒ reduction in pulm. vascular resistance (fluid expulsion)
3. Reduction/closure of ductus arteriosus (so oxygenated blood doesn’t bypass lungs)

Question 30

Birth thermogenesis?

Answer 30

• Non-shivering thermogenesis via vascular brown fat
• SNA
• Term neonates can maintain body to to 23ºC for ~hour using brown fat

Best thing to do is to DRY THE BABY to avoid evaporative heat loss

Question 31

How does the babies nutrition change from birth?

Answer 31

Fetus: constant supply of nutrients

Neonate: supply cut off; instead needs intermittent feeding;
**if baby isn’t fat enough; and has low reserves it’s at risk of hypoglycaemia

So the establishment of lactation by mother for breast feeding is very important. (oxytocin is very important!!)

Question 32

Clinical outcome of metabolic acidosis (often due to hypoxia) in labour are?

Answer 32

2% babies born with severe metabolic acidosis.

Of those babies, 78% admitted into NICU with complications
27% ventilated
7% died

Question 33

Whats a therapeutic technique of correcting asphyxia in newborns (to avoid hypoxia/metabolic acidosis)

Answer 33

Head Cooling:

• Have to meet certain criteria
• SHows a significant benefit of hypothermia

Question 34

Involution of labour

Answer 34

Baby has come our and lactation has already commenced.

Involution is changes back to a non-pregnant state

Now we have:

• Placental seperation
• Cleavage through decidua basalis
• Contractions to prevent postpartum haemorrhage
• Increased uterine sensitivity to oxytocin

By 7 days postpartum, uterus had reduced 50% in weight

Question 35

• ___________ acts as a labour “brake”
• There’s a _________ clock in humans (that requires an intact fetus)
  
  • Placental ________ increases CRH (key to winding up the clock, but levels don’t predict labour)
  • Progesterone “withdrawal” (via altered _______ levels) increase C43 to increase Gap junctions
  • PGs stimulate Progesterone receptor __ (fire up system)
  • Activation of________ signalling (babies born at night/early morning)

Answer 35

• Progesterone acts as a labour “brake”
• There’s a placental clock in humans (that requires an intact fetus)
  
  • Placental estrogens increases CRH (key to winding up the clock, but levels don’t predict labour)
  • Progesterone “withdrawal” (via altered receptor levels) increase C43 to increase Gap junctions
  • PGs stimulate Progesterone receptor A (fire up system)
  • Activation of circadian signalling (babies born at night/early morning)

Question 36

• an _________ process
• Multiple steps in a cascade
  
  • complexitiy is a _______mechanism
• Requires interplay between________ and ________
• Timing and initiation processes unknown in humans

Answer 36

• an inflammatory process
• Multiple steps in a cascade
  
  • complexitiy is a protective mechanism so people don’t randomly go into labour
• Requires interplay between fetoplacental unit and myometrium
• Timing and initiation processes unknown in humans