Parturition

Question 1

Outline the hormonal changes that occur around parturition

Answer 1

• Drop in progesterone, increase in oestradiol
• Increase in foetal cortisol
• Increase in prolactin

Question 2

How does cortisol affect the oestrogen:progesterone ratio?

Answer 2

• Rise in foetal cortisol increases oestrogen:progesterone ratio
• Upregulates aromatase enzymes
• Convert androgens to oestrogens
• Reduces progesterone production

Question 3

What are the potential endocrine reasons for delayed parturition?

Answer 3

• Too much progesterone
• Too little oestradiol preventing increased oxytocin
• Decreased glucocorticoids

Question 4

What is the dominant hormone during pregnancy?

Answer 4

Progesteron

Question 5

What is the major hormonal change that occurs prior to parurition?

Answer 5

Switch from progesterone to oestrogen

Question 6

What happens to foetal cortisol approaching parturition?

Answer 6

Cortisol increases (is the stimulus for parturition)

Question 7

What initiates parturition?

Answer 7

Foetal cortisol levels

Question 8

What causes the increase in foetal cortisol?

Answer 8

• Increased stress of foetus

- In response to reachign maximal size within available space and reaching maximal nutritional demands

Question 9

How does foetal cortisol cause changes that will ultimately lead to parturition?

Answer 9

• alters catalytic enzymes
• Progesterone converted to oestradiol using series of enzymes, upregulated by foetal cortisol
• Also stimulates productin of surfactant in lungs

Question 10

What are some functions of glucocorticoids?

Answer 10

• Affect glucose metabolism (inhibit insulin)
• Anti-inflammatory and immuno-suppressive
• Negative feedback to hypothalamus and ant. pit in HPA axis
• Increases uterine secretions
• Stimulates uterine prostaglandin production

Question 11

What changes allow myometrial contractions to take place?

Answer 11

• Increase in foetal cortisol

- Decrease in progesterone to remove block

Question 12

What may cause prolonged gestation?

Answer 12

• Lack of HPA axis
• Inability to produce foetal cortisol
• e.g. ingestion of “skunk cabbage” producing cyclopic lamb with absence of hypophysial stalk and pituitary, and adrenal hypoplasia

Question 13

Explain the importance of uterine prostaglandin production prior to parturition

Answer 13

• Stimulated by foetal cortisol
• Causes uterine contraction
• Acts on ovary and causes lysis of CL to further reduce progesterone levels
• Stimulates relaxin production

Question 14

What is the role of relaxin in parturition?

Answer 14

Increases elasticity of cervix for parturition

Question 15

What stimulates oxytocin release during parturition?

Answer 15

• Pressure from the foetus on the cervix

- Controlled by neurohormonal reflex

Question 16

Describe the neurohormonal reflex in oxytocin release

Answer 16

• Increasing pressure on cervix stimulates pressure sensitive neurons
• Relay afferent info to PVN of hypothalamus
• Neural input to posterior pituitary = oxytocin release
• Induces further contractions, increases pressure, positive feedback loop

Question 17

Outline the use of glucocorticoids for induction of parturition

Answer 17

• Induce abortion/parturition in late term gestation
• Support final developmental stages of young in humans (surfactant)
• Mimic action of foetal cortisol

Question 18

Outline the use of oxytocin in the induction of parturition

Answer 18

• Given to strengthen contractions and expel placenta/membranes
• e.g. uterine inertia, removal of uterine produced, retained placenta

Question 19

Outline the use of PGF2a in the induction of parturition

Answer 19

• Causes luteolysis
• Strengthens contractions
• Give prior to/during delivery

Question 20

Outline the use of beta-adrenergic agonists in parturition

Answer 20

• Inhibits contractions and causes relaxation

- Given to reduce contractions e.g. in C-section, or to correct dystocia

Question 21

Outline the actions of the mediators of contraction

Answer 21

• Stretch increases COX-2 and oxytocin receptors
• Oxytocin binds to receptors to simulate contraction (positive feeback) and also increases arachidonic acid
• Arachidonic acid converted by COX-2 to PGE and PGF2a
• PGs potentiate oxytocin
• Oestradiol increases COX-2 and oxytocin receptors

Question 22

Describe the biochemical mechanisms in myometrial contraction

Answer 22

• Hormone (oxytocin) binds to membrane receptor
• Second messenger signalling
• Calcium into cytoplasm from SER or extracellular sources
• Calcium binds to calmodulin forming complex
• Complex interacts with MLCK, needed for myosin activation (phosphorylates myosin)
• Myosin binds to actin, walks up to generate pull
• Contraction in all planes due to fibres running in multiple
  directions
• No troponin complex for regulating contraction

Question 23

Describe the physical contraction mechanism in myometrium

Answer 23

• 3D as fibres run in different directions
• Actin fibres attach to cell wall and dense bodies in cytoplasm
• When activated, slide over myosin bundles causing shortenin go f cell walles
• No striations
• Myosin performs powestroke

Question 24

Describe the role of gap junctions in the coordination of contractility

Answer 24

• Low resistance pathways allowing action as functional syncitium
• Allow passage of small molecules
• Increase in number and size towards parturition
• Oestradiol stimulates their production
• Presence and permeability under steroid and PG control
• Some influence of stretch

Question 25

Describe the structure of gap junctions in the myometrial myocytes

Answer 25

• Made up of connexons and connexins, half in each cell

- Each connexon is made up of 6 connexins

Question 26

What is the role of progesterone in myometrial activity?

Answer 26

Inhibits it

Question 27

What is the role of oxytocin in myometrial activity?

Answer 27

• Stimulates cascade of events leading to contraction

- Increases force, duration and frequency of contractions

Question 28

What is the role of oestradiol in myometrial activity?

Answer 28

• Stimulates production of gap junctions
• Makes contractions more likely
• Allows synchornous contraction

Question 29

What is the role of prostaglandins in myometrial activity?

Answer 29

• Isoform locally produced to act locally
• PGF2a = contraction
• PGI2 = relaxation
• PGE2 = cervical softening

Question 30

What is the neural input into myometrial activity?

Answer 30

• Autonomic via pelvix plexus innervates uterus through alpha1 and 2 and beta 1 and 2 adrenergic receptors
• Alpha-1 activation causes contraction
• Beta-2 activation causes relaxation
• High progesterone increases number of beta receptors

Question 31

What are the stages of parturition?

Answer 31

• INitiation of myometrial contractions
• Expulsion of the foetus
• Expulsion of the foetal membranes

Question 32

Describe the first stage of parturition

Answer 32

• Onset of uterine contractions
• Foetus produces cortisol, upregulation of enzymes
• P4 to E2
• Removal of P4 block on contractions
• Increased E2 increases repro tract secreions
• Cortisol increases uterine PGs
• PG causes relaxin prod
• Degradation of collagen and remodelling of cervical matrix over period of hours to days
• Cervical os opens
• PG lyses CL if present
• Uterine contraction increases due to increase in PGF2a and E2
• Foetus assumes disposition for expulsion

Question 33

Outline the onset of coordinated myometrial contractions

Answer 33

• Transition from uncoordinate to regular peristaltic type
• Duration, frequency and amplitude increase
• Peristaltic waves towards vulva

Question 34

Describe assumption of foetal disposition for parturition in general

Answer 34

• Adoopts characteristic position for passage through cervix to vagina then vulva
• Some species variation
• Trigger for foetal response unknown *may be result of increasing uterine pressure

Question 35

Describe assumption of foetal disposition in foal and pup

Answer 35

• Rotation from ventral to dorsal position

- Forelimbs, head and neck extend

Question 36

Describe assumption of foetal disposition in calf and lamb

Answer 36

Simple extension of limbs and head

Question 37

Describe the reduction in attachment of placenta in teh first stage of parturition

Answer 37

• Uterine contractions cause less intimate attachment
• Superficial cells undergo fatty degeneration
• in species with deciduate placenta, separation of margins and haemorrhage begins

Question 38

Give the signs of the first stage of parturition

Answer 38

• Uterine/myometrial contractions
• Anorexia, shivering
• Nesting behaviour
• Vulval discharge

Question 39

Compare the second stage of parturition in monotocous and polytocous species

Answer 39

• Monotocous: one foetus to be delivered, expulsion of foetus
• Polytocous: multiple foetuses to be delivered, cannot spearate second and third stage

Question 40

Describe the second stage of parturition

Answer 40

• Expulsion of foetus
• Onset of abdominal contractions
• Ferguson’s reflex initiated
• Allantochorion ruptures as consequence of movements towards teh cervix
• Contractions continue, amnion at vulva
• Foetal limbs in amnion
• Foetus hypoxic in birth canal
• Foetal head at vulva, maximal contractile effort
• Complete when all foetuses delivered

Question 41

Describe Ferguson’s reflex

Answer 41

• Does not involve abdominal contractions
• Caused by force of foetus against cervix
• Neurohormonal refelx to release more oxytocin which in turn increases contractions, more pressure so more stimulation of PVN and more oxytocin etc

Question 42

What is the significance of the foetus being hypoxic in the birth canal?

Answer 42

• Promotes foetal movement

- Stimulates more myometrial contractions

Question 43

When do the abdominal contractions take place in stage 2 of parturition?

Answer 43

• Short window, mostly myometrial contractions
• High impact in specific stages
• Superimposed on beginning of specific myometrial contractions to increase uterine pressure

Question 44

What is the stimulus to breathing following parturition?

Answer 44

Air on nostrils

Question 45

Describe the third stage of parturition

Answer 45

• Expulsion of placenta
• After foetal expulsion, regular abdominal contractions cease
• Myometrial contractions more frequent but less strong and less regular
• Vasoconstriction of arteries supplying chorionic villi
• Maternal vasoconstriction where there is haemochorial placenta
• Uterine contractions open endometrial crups and allow separation of foetal membrane

Question 46

Describe the importance of the change in myometrial contractions in the third stage of parturition

Answer 46

• Important for dehiscence and expulsion of foetal memrbanes

- Dehiscence is separation of foetal memrbanes

Question 47

Describe the myometrial contractions in the third stage of parturition

Answer 47

• Decreased amplitude, more frequent, less regular
• Waves from uterine tube to cervix
• Opposite direction in cow and sow to aid dehiscence

Question 48

Describe the consequence of vasoconstriction of the arteries supplying the chorionic villi

Answer 48

• Villi decrease in size
• Released from crypts
• Caruncle decreases in size

Question 49

Describe the eversionof the placenta in the mare

Answer 49

• Foetus breaks through amnion at cervical star (little/no attachment/villi here)
• Amnion breaks
• Allantochorion follows by rolling away from wall, starting at tip of gravid horn usually
• Form mass within pelvis, stimulates abdominal contractions
• Expulsed inside out

Question 50

What occurs during the puerperium?

Answer 50

• Reproductive tract reduces in size to similar to before pregnancy
• Between 2-8 weeks depending on species
• Often have mucoid vulval discharge

Question 51

What terms are used to describe disposition of the foetus?

Answer 51

• Presentation
• Position
• Posture

Question 52

Define foetal disposition

Answer 52

The spatial arrangement of the foetus in relation to the pelvis and birth canal of the dam and of its extremitites to itself. Describe as normal or abnormal.

Question 53

Describe what is meant by foetal presentation

Answer 53

• Relation between longitudinal axis of foetus and maternal birth canal
• Can be longitudinal or transverse
• Can be cranial or caudal, dorsal or ventral

Question 54

What is meant by cranial longitudinal foetal presentation?

Answer 54

Head first, spine to spine

Question 55

What is meant by caudal longitudinal foetal presentation?

Answer 55

Tail first, spine to spine

Question 56

What is meant by dorsal transverse foetal position?

Answer 56

On its side, spine of foetus towards birth canal

Question 57

What is meant by ventral transverse foetal presentation?

Answer 57

On its side, ventrum of foetus towards birth canal

Question 58

Describe what is meant by foetal position

Answer 58

• indicates surface (quadrant) of maternal birth canal, to which the vertbral column of the foetus is apposed to
• Dorsal, ventral, left lateral, right lateral

Question 59

What is meant by dorsal foetal position?

Answer 59

Spine of foetus to top of birth canal

Question 60

What is meant by ventral foetal position?

Answer 60

Spine of foetus to bottom of birth canal

Question 61

What is meant by left lateral foetal position?

Answer 61

Spine of foetus in contact with left wall of birth canal

Question 62

What is meant by right lateral foetal position?

Answer 62

Spine of foetus in contact with right wall of birth canal

Question 63

Describe what is meant by foetal posture

Answer 63

• The disposition of the moveable appendages ofthe foetus
• Involves flexion or extension of the neck and joints
• Flexion of neck describe with direction e.g. laterally and to the right
• Flexion of limbs identified as which joint e.g. hip, shoulder etc and which limb

Question 64

What are the normal dispositions?

Answer 64

• Cranial longitudinal presentation, dorsal posture, extension of neck and forelimbs
• Caudal longitudinal presentation, dorsal position and extension of hindlimbs

Question 65

What is meant by breech?

Answer 65

Caudal longitudinal presentation, dorsal position adn hindlimbs flexed at hips

Question 66

What is meant by dystocia?

Answer 66

Difficulty in birth, does not always relate to abnormal disposition

Question 67

What factors influence the incidence of dystocia?

Answer 67

• Varies by species
• Breed
• Age
• Parity
• Body conditin
• Environment

Question 68

Give some common causes/features of dystocia

Answer 68

• Foetus (or part of it) too big/dam too small
• Abnormal disposition
• Multiple foetuses
• Poor or absent uterine contractions (primary or secondary inertia)

Question 69

Compare primary and secondary uterine inertia

Answer 69

• Primary: lack of contraction from teh beginning

- Secondary: myometrium becomes exhausted e.g. after multiple foetuses

Question 70

Give common causes of dystocia in the cow

Answer 70

• Foeto-maternal disporportion
• Foetal disposition
• Complete vagina/cervical dilatation
• Uterine inertia
• Uterine torsion
• Cervical prolapse
• Foetal monsters/abnormalities

Question 71

What is traction when relating to parturition?

Answer 71

• The application of force to presenting parts of the foetus in order to supplement or replace the maternal forces
• In most cases of moderate foeto-maternal disporportion will be sufficiently treated by application of traction

Question 72

What are the risks involved in using traction to aid parturition?

Answer 72

Excesive force applied inappropriate may cause severe trauma to dam and foetus

Question 73

What should an investigation of possible dystocia include?

Answer 73

• Clinical history
• General examination
• Obstetrical examination
• Formation of conclusion

Question 74

What are important points to cover in a case history for a dystocia case?

Answer 74

• Premature/overdue
• Parity
• Sire information
• Recent observations of dam
• Vulval discharge
• Uterine/abdominal contractions
• Foetal membranes/fluid
• Any foetuses delivered
• Need to establish what stage of parturition

Question 75

What are important points to cover in a general examination in a dystocia case?

Answer 75

• Bright/dull
• Body condition
• Ability to stand/walk
• Clinical parameters
• Presence of foetal parts at vulva
• Vulval discharge
• Abdominal distension
• evidence of foetal life
• Clinical condition determines steps taken

Question 76

How can foetal life be established prior to parturition?

Answer 76

• Apex beat of heart
• Suck reflex
• Limb pulses
• Response when stimulate anus
• Withdrawal reflex etc

Question 77

What are the important points to cover in an obstetrical examination when dealing with a dystocia case?

Answer 77

• Vaginal examination
• Vestibule dilation
• Vaginal dilation
• Cervical dilation
• State of lubrication of tract
• Foetal presence and life, and disposition
• Foetal membranes present and intact?
• Relative size of birth canal and likelihood of foetuses beign delivered
• Lacerations

Question 78

What is important to ensure following delivery in a dystocia case?

Answer 78

• No other foetuses
• No lacerations/perforations
• No obvious other defects e.g. pelvic fractures, mastitis etc

Question 79

What is the most common cause of dystocia in cows?

Answer 79

Oversize

Question 80

What is the most common cause of dystocia in dogs and cats?

Answer 80

Primary uterine inertia

Question 81

What are the general principles of management of a dystocia case?

Answer 81

• Establish treatment plan
• Conservative treatment (minimal intervention where possible)
• Manipulative treatment
• Drug therapy
• Surgical treatment
• Euthanasia

Question 82

Discuss teh general principles of manipulative treatment of a dystocia case

Answer 82

• Drugs needed (tocolytic, epidural)
• Oxygen to foetus where possible
• Lubrication
• Anchoring devices to identifiable structure
• Mutation for correcting presentation, position or posture

Question 83

What tools can be used for traction of the foetus?

Answer 83

Ropes and snares, chains in some cases, vectis forceps

Question 84

When is traction best applied?

Answer 84

Best time to apply traction with contractions, and maintain in between to prevent reverse movement of foetus

Question 85

What tools can be used to apply traction when the foetus is dead?

Answer 85

Variety of hooks e.g. eye hooks, General and self-closing hooks

Question 86

When applying traction, why might slight rotation of the foetus be advantagious

Answer 86

• Largest diameter of birth canal if 5-past-7 or 5-t-5 position

Question 87

What do you need to consider when delivering a foetus, with regards to the umbilicus?

Answer 87

• When umbilicus pressed against pubis, blood supply to foetus compromised
• Especially in posterior presentation

Question 88

In what direction should traction be applied?

Answer 88

Downwards

Question 89

What is a fetotomy?

Answer 89

• Removal of parts of the foetus where the feotus is too large to come as one part or cannot be removed in another way
• Only when foetus dead

Question 90

Compare percutaneous and subcutaneous foetotomry

Answer 90

• Percutaneous: used in calves, cuts through skin using wire

- Subcutaneous: foetotomy knife, cut skin and remove from lamb to remove limb

Question 91

What are the 6 major indications for carrying out a Caesarean section in the cow

Answer 91

• Inadequate cervical dilatation
• Uterine torsion that cannot be rectified
• Foetal deformity (e.g. schistosoma reflexus)
• Narrow undersized pelvis of mother
• Abnormal pelvic conformation
• malpresentation of foetus that cannot be corrected

Question 92

Outline the principles of a C-section in the cow

Answer 92

• In through left, rumen blocks intestines from falling out

- When puncture peritoneum will hear rush of air

Question 93

List complications that may arise from a C-section in the cow

Answer 93

• Punctured rumen
• Continued straining during procedure which may push rumen out and creates moving target
• Lying down during procedure
• Disagreement in what a successful outcome is

Question 94

What things may help reduce challenge associated with bovine abdominal surgery on a farm?

Answer 94

• Fix cow’s head
• Push cow with RHS against wall/barrier
• Gate along front half of LHS
• Crush with cow half in half out
• Plenty of clean straw
• Good lighting
• Rope over withers to prevent kicking
• Sedation may be necessary

Question 95

For the bitch, give the

a. duration of 1st stage of parturition
b. duration of 2nd stage
c. duration of 3rd stage
d. time from delivery to offspring mobility
e. time from delivery to suckling

Answer 95

a. 6-12 hours
b. 6 (24 h in large litters)
c. most placentas pass with neonate or within 15 mins of birth
d. 30-60 min
e. 30-60 min

Question 96

For the queen, give the

a. duration of 1st stage of parturition
b. duration of 2nd stage
c. duration of 3rd stage
d. time from delivery to offspring mobility
e. time from delivery to suckling

Answer 96

a. 1-2h for 1st kitten
b. can pause fo 12-24h
c. membranes soon after each kitten
d. 30-60min
e. 30-60min

Question 97

For the mare, give the

a. duration of 1st stage of parturition
b. duration of 2nd stage
c. duration of 3rd stage
d. time from delivery to offspring mobility
e. time from delivery to suckling

Answer 97

a. 1-4h
b. 12-30min
c. 1h
d. 10-30min
e. 60-120 min

Question 98

For the cow, give the

a. duration of 1st stage of parturition
b. duration of 2nd stage
c. duration of 3rd stage
d. time from delivery to offspring mobility
e. time from delivery to suckling

Answer 98

a. 6-12h
b. 0.5-4h
c. 4-12h
d. 20-40min
e. 2-4h

Question 99

For the sow, give the

a. duration of 1st stage of parturition
b. duration of 2nd stage
c. duration of 3rd stage
d. time from delivery to offspring mobility
e. time from delivery to suckling

Answer 99

a. 2-12h
b. 150-180miin
c. each set passed with next piglet from that horn
d. 10-20min
e. 15-30min

Question 100

For the ewe, give the

a. duration of 1st stage of parturition
b. duration of 2nd stage
c. duration of 3rd stage
d. time from delivery to offspring mobility
e. time from delivery to suckling

Answer 100

a. 2-6h
b. 0.5-2h
c. 0.5-8h
d. 10-20min
e. 30-60min