Reproductive failure 2 - Non-infectious causes

Question 1

Explain the difference in the oestrus cycles (cycle and oestrus length as well as time of ovulation) of cattle, sheep, pig and horse.

Answer 1

• Cattle: 21d cycle, 18h oestrus and ovulation 11h after oestrus ends
• Sheep: 17d cycle, 29h oestrus and ovulation near the end of oestrus
• Pig: 21d cycle, 48-72h oestrus and ovulation 35-45h after the start of oestrus
• Horse: 21d cycle, oestrus length is 4-8d and ovulation is 3-6d after oestrus starts.

Question 2

List polyoestrus species

Answer 2

Cor, pigs, cats and rodents

Question 3

List seasonal polyoestrus species

Answer 3

Long day breeder: mare
short day breeder: sheep and goat

Question 4

List monoestrus species

Answer 4

Dog, wolf, fox and bear

Question 5

What are the 7 non infectious causes of reproductive failure?

Answer 5

• Failure to mate
• failure to ovulate
• failure to fertilise
• embryonic death
• failure to implant
• foetal mortality
• perinatal mortality

Question 6

What may lead to a failure to mate? Explain each factor.

Answer 6

• Season: photoperiod or heat stress
• Male: Age (need to be sexually mature), libido or injury
• Female: Age, silent oestrus, aggression or protection of offspring
• Competition in the flock/herd mating: male preference or insufficient male to female ratio
• Congenital abnormalities: include things such as cryptorchidism, gonadal hyperplasia, penile deviation, freemartinism or hermaphroditism (intersex)

Question 7

What may lead to a failure to ovulate? Explain each factor.

Answer 7

• Oestrus without ovlation: occurs at the onset of puberty, during transition to breeding season, imbalance of FSH and LH
• Cystic follicles: common in dairy cattle and swine, associated with high milk production, hereditary predisposition, LH release disrupted

Question 8

What may lead to a failure to fertilise? Explain each factor.

Answer 8

• Infertile or sub-fertile male: overuse, injury, season, heat stress
• Impaired sperm transport: can be due to female factors or an anatomical abnormality. Phytoestrogens (eg clover disease) may play a role
• Abnormal oocytes or sperm: age plays a role in both genders
• Inappropriate timing of insemination
• Nutritional stress: delays onset of puberty, reduces oestrus cyclicity and ovulation rate, detrimental to foetal development (reduces offspring birthweight and lifetime performance), decreased lactation
• Environmental stress: extreme heat or cold or drought
• Handling stress

Question 9

What may lead to a embryonic failure/death? Explain each factor.

Answer 9

• Embryonic death: in all mammalian spp. 30-40% of embryos are lost, majority occur prior to maternal recognition of pregnancy so cant be distinguished from fertilisation failure. Those that occur after the maternal recognition of pregnancy have a late or delayed return to oestrus whereas unrecognised losses have a normal return to oestrus.
• Non-viable embryo: lethal genetic defect, delayed timing of fertilisation or insemination (oocyte ages and loses viability), maternal recognition of pregnancy
• Poor oviductal/uterine environment: CL failure, hormone imbalance, abnormal embryo trasnport, inadequate support of embryo development, failure to implant, failure to maintain pregnancy.

Question 10

What may lead to failure to implant?

Answer 10

Poor oviductal or uterine environement due to:
- CL failure (hormonal imbalance)
- abnormal embryo transport
- inadequate support of embryo develepment

Question 11

What may lead to a foetal mortality? Explain each factor.

Answer 11

• Non-viable foetus or uterine deficiency –> foetus absorbed early pregnancy
• uterine crowding
• undernutrition: high energy demand in late pregnancy, pregnancy toxaemia (where the breakdown of fats become toxic)

Question 12

What may lead to perinatal mortality? Explain each factor.

Answer 12

• Dystocia
  o Multiple pregnancy
  o Abnormal foetal position
  o Foeto-pelvic disproportion (oversized foetus)
  o Primiparous dam
• Hydrops: Fluid build-up in body of foetus
• Weak neonate
  o Low birth weight
  o Respiratory distress syndrome
  o Mismothering/maternal bonding: Breed, age of mother
• Predation
• Temperature stress (exposure)
• Mastitis  starvation
• Accident

Question 13

What are the methods of pregnancy and does this differ among species?

Answer 13

• Detection of a normal return to oetrus
• Ultrasonography
• transrectal palpation in cows and mares
• biochemical testing

Question 14

What are some issues associated with biochemical testing for pregnancy diagnosis?

Answer 14

• Cost
• inconvenience of blood collection
• variability between animals
• false positives or negatives
• stringent quality control needed
• turnaround time from blood collection to return of result

Question 15

What may be one reason a maiden ewe may fail to mate and/or raise a lamb?

Answer 15

• They have less overt oetrous behaviour so may not be picked up by the rams
• They have poorer maternal ability
• shorter oestrus

Question 16

What is a silent heat and when would you expect it?

Answer 16

A silent heat is oestrus without any signs due to lack of progesterone priming. Expect it:
- At the onset of puberty
- at the start of the breeding season
- during spring and summer in merinos

Question 17

When might an animal go through oestrus without ovulation and why?

Answer 17

• At the onset of puberty
• during transition into breeding season
• This is due to an imbalance of FSH and LH

Question 18

What are cyctic follicals assocated with?

Answer 18

• They are associated with dairy cattle and swine
• high milk production - neg energy balance
• hereditary component
• Happens due to the LH release being disrupted

Question 19

Can nutritional stress impact fertility? If yes, how?

Answer 19

• Decreased lactation
• delays onset of puberty
• reduces oestrus cyclicity and ovulation rate
• detrimental to foetal development

Question 20

Do most early embryonic losses occur before or after maternal recognition of pregnancy signal?

Answer 20

Most occur BEFORE which means they will have a normal return to oestrus

Question 21

If a embryonic loss occurs after the maternal recognition of the pregnancy signal, will there be a normal return to oestrus?

Answer 21

No, there will be a late or delayed return to oestrus