Pregnancy failure

Question 1

What is meant by early embryonic death?

Answer 1

• Pre-implantation phase
• Before foetal-maternal recognition of pregnancy
• Does not involve elongation of life of CL (PgF2a released by endometrium)

Question 2

What is meant by late embryonic death?

Answer 2

• Peri-implantation phase
• Occurs after life of CL has been extended
• Luteotrophic factor (MRP) has been released

Question 3

What is meant by abortion?

Answer 3

• Post-implantation phase
• After organogenesis (organs formed, ossification)
• Material to to be born

Question 4

When does maximal embryonic wastage occur in cows?

Answer 4

• Days 8-18 after insemination

- Late mebryo mortality occurs days 21-42

Question 5

What occurs in the first 21 days post-insemination in the cow?

Answer 5

• Fertilisatoin
• Early embryogenesis
• Maternal recognition of pregnancy

Question 6

What occurs at around day 21 in the cow in terms of pregnancy?

Answer 6

• Placentomes visible, contact between endometrium adn allantochorion
• Prior to this placenta is diffuse

Question 7

What is the main form of embryo wastage in the cow?

Answer 7

Early embryonic death (before day 21)

Question 8

What is meant by embryonic death in the horse compared to foetal death?

Answer 8

• Embryonic: before 40d gestation

- Foetal: after 60d gestation

Question 9

In the mare, what percentage of embryo loss occurs

a. before maternal recognition (early)
b. before 40d gestation
c. later than 60 days

Answer 9

a. 5-24%
b. 8-17%
c. 10%

Question 10

What are the two types of foetal death in the mare?

Answer 10

• Early (before d150)

- Late (after d150)

Question 11

What are the two types of early foetal death?

Answer 11

• Type 1

- Type 2

Question 12

Describe type 1 embryonic death in the mare

Answer 12

• Early embryonic death after maternal recognition
• 15 days
• Persistence of CL and prlonged luteal phase
• Treat with prostaglandin

Question 13

Describe type 2 embryonic death in the mare

Answer 13

• Foetal death after endometrial cup formation at 36 days
• Lasts until demise of endometrial cups (90-150 days)
• Endometrial cups secrete eCG which is luteotrophic
• Maintian primary CL and form and maintain accessory CLs
• No treatment, wait for cups to complete cycle

Question 14

List some causes of embryonic/foetal loss

Answer 14

• Chromosomal abnormalities
• Nutrition
• Environmental
• Physiological
• Infectious agents
• Insemination
• Trauma

Question 15

Describe chromosomal abnormalities as a cuase of embryonic/foetal loss

Answer 15

• Inevitable
• In monotocous species causes early embryonic loss with return to service
• In polytocous, loss of chromosomally abnormal butkeep normal ones
• May be inhereted or arise de novo through gametogenesis, fertilisation and early embryo cleavage
• Abnormal meiosis, polyspermy, failure to extrude polar bodies
• Less likely in animals than humans as select for high fertility and ability to carry to term

Question 16

What is meant by fertility?

Answer 16

The ability to conceive and become pregnant, not ability to maintain pregnancy

Question 17

Give an example of a nutritional deficiency that may lead to embryonic/foetal loss

Answer 17

Vitamin A and E deficiency in cows and pigs especially

Question 18

Give examples of environmental factors that may lead to embryonic/foetal loss

Answer 18

• Climate
• Stress
• Teratogens

Question 19

What are teratogens?

Answer 19

Environmental factors that induce foetal abnormalities during developmental process, early embryo very susceptible, become sensitive again during CNS and CRS development

Question 20

Give examples of physiological factors that may lead to embryonic/foetal loss

Answer 20

• Ovulation rate
• Uterine environment - asynchrony of uterus, ovary and embryo
• Immunological (recognition of embryo as foreign body)
• Endocrine
• Failure of maternal recognition of pregancy (lack of preogesterone, esp cows)

Question 21

Outline how insemination may lead to embryonic/foetal loss

Answer 21

• Semen quality - may affect fertilisation/embryo quality

- Given in error during early pregnancy, may cause embryo loss

Question 22

Outline how trauma may lead to embryonic/foetal loss

Answer 22

• PD by rectal palpation after 42 days

- Palpation of uterus can cause substantial embryo mortality if performed in early pregnancy

Question 23

How may things prior to fertilisation result in embryo mortality?

Answer 23

• Environmental influences affecting folliculogenesis

- May influence quality of embryo derived from that oocyte

Question 24

Give the proportion of causes of equine abortion (non-infectious, infectious, unknown)

Answer 24

• Non-infectious 70%
• Infectious 15%
• Unknown 15%

Question 25

How may pregnancy loss result in pseudopregnancy?

Answer 25

• Maternal recognition of pregnancy
• Failure of CL regression
• Progesterone secretion continues
• Pseudopregnancy maintained
• Usually longer than normal pregnancy, as no parturient signal for luteolysis

Question 26

What causes hydrometra in goats?

Answer 26

• Fertilisation followed by embryonic death
• CL persists
• Accumulation of sterile secretions

Question 27

Explain how pathogens may enter the pregnant uterus

Answer 27

• Cervix - ascending infections, can occur with cervical incompetence or competent cervix (commensal or venereal)
• Systemic infection
• Pathogens affecting CL e.g. Infectious Bovine Rhinotracheitis (IBR)

Question 28

What is the main bacterial cause of early embryonic death in cattle?

Answer 28

Campylobacter foetus var. venerealis

Question 29

What is the main protozoan cause of early embryonic death in cattle?

Answer 29

Tritrichomonas foetus

Question 30

What is the main bacterial cause of early embryonic death in horses?

Answer 30

Taylorella equigenitalis (CEM)

Question 31

How are agents causing infection and early embryonic death introduced into the reproductive tract?

Answer 31

Via spem i.e. are venereal

Question 32

What are common infectious agents causing abortion

Answer 32

• Bacterial
• Parasitic
• Fungal
• Viral

Question 33

Outline the clinical signs of early embryonic death

Answer 33

• Tissues resorbed

- Animal returns to oestrus

Question 34

Outline the clnical signs of death followig infection

Answer 34

• Pyometra may follow

- Cattle: CL persists, closed cervix and pus accumulation

Question 35

Outline the clinical signs abortion

Answer 35

• Expulsion of abortus tissue
• Lysis of CL
• May be in state of autoysis or fresh depending on speed with which agent dispatches foetus and means by which pregnancy is maintined

Question 36

Outline the appearance of papyraceous mummification

Answer 36

• Foetal fluids resorbed
• Foetal membranes shrivelled
• Uterus contracts

Question 37

Describe foetal mummification in polytocous species

Answer 37

• Mummified foetus expelled at parturition with no harm to live foetuses
• Develops in multiparous bitch, queen and sow

Question 38

Outline abortion in species what CL dependent pregnancy

Answer 38

• Pigs, goats, cows up to 200 days
• Delay between time of death adn lysis of CL
• Autolysis likely to occur (e.g. bovine herpesvirus 1)
• Mummified calves have unusual appearance

Question 39

Describe the appearance of mummified calves

Answer 39

• Fluid resorbed
• Foetus and membranes covered in viscous chocolate coloured material
• Haemorrhage of caruncles is a consequence of abortion

Question 40

Describe abortion in CL independent pregnancy

Answer 40

• Ewes, mares
• Foetal death leads to cessation of foetal contribution
• Placental progesterone declines
• Foetus expelled in fresh state immediately following death

Question 41

Describe foetal death in twin pregnancy in teh mare

Answer 41

• One foetus grows more slowly than the other, smaller
• Smaller dies and if other survives then dead will mummify
• Will be delivered at term with llife foal

Question 42

Outline the treatment of prolonged gestation in cattle

Answer 42

• Treat with PG to stimulate expulsion
• Must be sure foetus is expelled to prevent foetal maceration
• Bacteria enter uterus, digest soft tissues leaving bones
• Bones embedded in uterine wall = endometritis and endometrial damage (slaughter)

Question 43

Give a key example of a pathogen of sows causing abortion

Answer 43

Porcine parvovirus

Question 44

Give key examples of pathogens causing abortion in cows

Answer 44

• Neospora caninum

- Bovine viral diarrhoea virus (BVDV)

Question 45

Give a key examples of pathogens in ewes causing abortion

Answer 45

• Chalmydial enzootic abortion
• Toxoplasma gondii
• Border disease virus

Question 46

What is SMEDI?

Answer 46

Stillbirths, mummification, embryonic death, infertility in teh sow
- Characterises a number of viral infections in the sow

Question 47

Describe the classical signs of SMEDI infection

Answer 47

• Full term litter with small mummified foetuses (closer to uterine body) and full-grown stillborn or live weakly piglets (at ends of horn)
• Progressive infection in utero along horn
• Abortion rarely occurs

Question 48

What are common causes of SMEDI in sows?

Answer 48

• Porcine parvovirus
• PRRS
• Less frequently by enteroviruses

Question 49

Give common bacterial agents of abortion in the mare

Answer 49

• Streptococcus zooepidemicus
• E. coli
• Staphylococci
• Mostly opportunistic

Question 50

Give a common fungal agent of abortion in the mare

Answer 50

Aspergillus

Question 51

Give common viral agents of abortion in the mare

Answer 51

• Equine herpesvirus-1 (EHV-1)

- Equine arteritis virus (EAV)

Question 52

Describe the mechanisms of pregnancy failure in a mare with multiple conceptuses

Answer 52

• Placenta is epitheliochorial
• Conceptuses reliant on nutrition from entire surface
• 2 embryos, not enough nutrients for each

Question 53

Describe the manifestations pregnancy loss in twin pregnancies in the mare

Answer 53

• One foetus resorbed at an early stage
• One foetus mummified at an early stage
• Both twins aborted, usually mid to late gestation

Question 54

List common infectious causes of ovine abortion

Answer 54

• Chlamydophila abortus
• Toxoplasma gondii
• Campylobacter species
• Salmonella species
• Listeria species
• Schmallenberg virus

Question 55

Describe Schmallenberg virus

Answer 55

• Late abortion or birth defects in newborn sheep, cattle and goats
• Milk disease in adults (milk drop, pyrexia, diarrhoea)
• Transmitted by insect vectors
• No evidence of zoonosis
• Foetal deformities vary depending on when infection occured during pregnancy

Question 56

List signs of Schmallenberg virus in newborn sheep

Answer 56

• Hydrancephaly - often seen as deformed head but may appear nromal but unable to stand/suckle
• Born with flexed forelimbs, overlong fixed hindlimbs, twisted spine, abnormally flexed deformed legs (arthrogryposis)
• Bracynathia inferior (undershot jaws, parrot jaw)
• Prevents priming of muscles so unable to stand

Question 57

During which period are sheep and cattle most sensitive to Schmallenberg virus?

Answer 57

• When the CNS is developing
• Cattle: 3-5 months
• Sheep: 2-3 months

Question 58

Discuss vaccination against Schmallenberg virus

Answer 58

• 3 vaccines: Bovilis SBV, SBVvox, Sulvac SBV
• All inactivated virus vaccines
• Uptake by farmer low
• None currently available

Question 59

Describe Chlamydial abortion in sheep

Answer 59

• Main cause of ovine abortion in UK
• Last 3 weeks of pregnancy
• Placental damage from day 90 colonised by bacteria, inflammation
• Causes abortion storms (over 30% of ewes)
• Housed, intensive flocks
• Immune mechanism protecting mother does not control once in placenta
• Nutrition limited during gestation
• High levels of organisms present in abortio products, contamination of envronmetn and other ewes

Question 60

Describe the signs of Chlamydial abortion in sheep

Answer 60

• Lambs weak, susceptible to other infections, low survival

- Placenta has thickened areas between cotyledons and brownish exudate over surface

Question 61

Give important features of Chlamydial abortion control

Answer 61

• Isolate aborted ewes and aborted material
• No cross fostering of lambs as will pass infection from ewe to new lamb
• Vaccines available

Question 62

Describe Toxoplasma gondii

Answer 62

• Intracellular protozoan
• Sheep intermediate hosts
• Infection by ingestion of oocysts in food, water etc
• Time of infection and infective dose detemines impact on foetus

Question 63

What is the effect of Toxoplasma gondii in early, mid and late gestation

Answer 63

• Early: large damage
• Mid: medium damage
• Late: low damage

Question 64

Describe the features of abortion due to toxoplasma gondii

Answer 64

• Lesions in brain, liver and kidney of aborted foetus
• Resorption, barrenness, mummification, stillbirth, abortion, live lambs all possible outcomes
• Dark red placental cotyledons with white speckles of necrosis
• Gritty texture of cotyledons

Question 65

Describe Campylobacter as a cause of abortion in sheep

Answer 65

• Abortion in last 6 weeks of gestation
• Birth of live weak lambs
• Spreads rapidly due to organisms in aborted material
• No lesions present in placenta
• Areas of necrosis in foetal liver (white rings)

Question 66

Describe non-infectious pregnancy loss in ewes

Answer 66

• Low incidence
• Not usually detected until day 90
• Associated with multple rather than single conceptions
• Incidence of early embryonic death 20-33%
• May be due to ingestion of phytoeostrogens
• Structure defects of genital organs (limited cause)

Question 67

List common agents causing abortion in goats

Answer 67

• Most agents causing abortion in sheep will also cause abortion in goats
• Toxoplasma
• Chlamydophila species
• Listeria species
• Coxiella species

Question 68

Compare enzootic abortion in sheep and goats

Answer 68

• In goats infection and abortion can occur in the same year

- In sheep, abortion will occur the year after infection

Question 69

Outline non-infectious pregnancy loss in goats

Answer 69

• Habitual abortion in most breeds, aborters usually culled
• Angora goats have high abortion rates due to high metabolic demand for fibre production, causing nutritional stress and hypoglycaemia (abortion 90-120 days of gestation)

Question 70

Describe habitual abortion in goats

Answer 70

• Genetically determined hyperactivity of maternal adrenal cortex
• Initiates parturition
• Foetuses dead and oedematous

Question 71

What is the most common cause of abortion in cows?

Answer 71

Neospora caninum

Question 72

List important causes of abortion in cows

Answer 72

• Neospora spcecies
• Bacillus lichenformis
• Arachnobacter pyrogenes
• Salmonella dublin
• BVD
• Other (nutrition, stress, timing of insemination/conception)

Question 73

Describe the effects of gestation age at time of infection with bovine BVD

Answer 73

• Early: <100 days, abortion, mummification, or in few cases stillborn or alive, virus +ve
• Mid: 90-125+ days, abortion, mummification, cerebellar hypoplasia, ocular/retinal lesions, epidermal lesions, other defects, virus +ve, Ab -ve
• Late: >150 days, term calf, normal development, virus -ve, Ab +ve, persistently infected, can become cytopathic

Question 74

List major causes of non-infectious pregnancy loss in the cow

Answer 74

• Nutrition
• Stress
• Timing of insemination
• Conception toosoon after calving

Question 75

Describe nutrition as a cause of non-infectious pregnancy loss in the cow

Answer 75

• Vitamin deficiencies in vit A, sleenium, phosphorous, copper
• Negative energy balance
• High intakes of rumen-degradable protein (high urea or ammonia in blood)
• INgestion of dietyar phytooestrogens

Question 76

Give examples of stress that may cause abortion in cows

Answer 76

• High temp and humidity - fertilisation filaure and early embryo mortality
• Environment, psychological, milk milk yield in early lactation

Question 77

How does timing of insemination affect abortion in cows?

Answer 77

Too late in oestrus period leads to ovum ageing and embryonic death

Question 78

How does conception too soon after calving lead to abortion?

Answer 78

High embryo loss likely to due poor uterine environment

Question 79

In the sow, what groups can pregnancy failure be divided into?

Answer 79

• Failure to establish

- Failure to maintain an established pregnancy

Question 80

Describe failure to establish pregnancy in sows

Answer 80

• Unattached conceptuses susceptible to damage
• High incidence of late returns ot oestrus
• Can be due to lack of maternal recognition, stress e.g. gilt aggression, infection
• Infection most likely cause

Question 81

What are the sensitive periods during which a pig conceptus is more likely to react to an adverse agent?

Answer 81

• Pre-attachment: before days 13-14
• Embryonic: days 14-35
• Foetal: after day 35

Question 82

How does ovulation rate correlate to emrbyo survival in the sow?

Answer 82

• Negative correlation
• Increased ovulation rate leads to decreased embryo survival
• Increased competition for uterine space

Question 83

Outline how nutrition affects embryo survival in the sow

Answer 83

High energy levels post service reduce embryo survival

Question 84

Outline the effect of stress on embryo survival in the sow

Answer 84

• Increased stess reduces survival
• Temperature, management etc
• Avoid moving sows

Question 85

Give examples of intrapartum factors that affect embryo survival in the sow

Answer 85

• > 20 mins between births
• Litter size: most deaths in last 3rd of litter due to secondary uterine inertia
• Older sows with more than 5 litters have increased intra-partum death
• Weight of sow
• Environmental stress - Temperaure, small farrowing crates

Question 86

Give examples of post-partum factors that lead to neonatal death

Answer 86

• Mostly overlaying or chilling

- Lactation shorter than 3 weeks markedly increases piglet mortality

Question 87

Give the main causes of pregnancy wastage in the bitch

Answer 87

• Abnormal uterine environment e.g. cystic endometrial hyperplasia
• Foetal defects
• Progesterone deficiency
• Infectious agents

Question 88

What is the main cause of pregnancy wastage in the queen?

Answer 88

Progesterone deficiency

- Little evidence of abortion being a clinical problem in queen

Question 89

Describe how sheep become infected with Chlamydia

Answer 89

• Ingestion/inhalation of infectious material

- Tonsil lymphoid tissue is primary site of infection, spreads via blood to caruncles then to placenta

Question 90

What diagnostic tests can be used for Chlamydia

Answer 90

• Serological testing
• Aborted material
• post-mortem of lambs
• Bacterial cultre from swab
• Examination of fresh placenta
• Ziehl-Neelson staining of placenta