Clinical relevance

Question 1

What parts of the male reproductive anatomy can be assessed using ultrasound?

Answer 1

• Testes (incl. epididymis)

- Prostate

Question 2

What trasnducer should be used for ultrasonography of the male reproductive tract?

Answer 2

8MHz curvilinear array/microconvex

Question 3

Describe the method for ultrasonography of the scrotum, testes and epididymis

Answer 3

• Sagitaal, transverse, frontal planes
• Apply lube to caudal asspect of scrotum
• Apply transducer to scrotal skin
• Image in all views
• can identify mediastinum testis, mostly in saggital plane
• Identify epididymis

Question 4

Describe ultrasonography of the prostate in large animals

Answer 4

• Transrectal

- Can see all accessory glands

Question 5

Where is the prostate located in the dog?

Answer 5

At neck of bladder encircling urethra

Question 6

Describe ultrasonography of the prostate in dogs

Answer 6

• Topographical landmark is pubis
• Dog in RLR, transducer sagitall plane
• Parallel to prepuce just cranial to pubis
• Identify bladder
• Move transducer caudally to bladder neck, then continue until find prostate
• Fan transducer to identify whole structure
• return to centre of prostate, turn to get transverse plane image

Question 7

Describe the appearance of the testicular parenchyma on ultrasonography

Answer 7

• Hypoechoic

- Regular diffuse echogenic stippling throughout organ

Question 8

Describe the appearance of the mediastinum testis on ultrasonography

Answer 8

• Centrally within testis in dog
• In sagittal is echogenic line approx 2mm wide, from cranial to caudal pole
• In transverse appears echogenic circular structure
• Often see acoustic shadow distal to mediastinum

Question 9

Describe the appearance of the testucular and vaginal tunic, cremaster and scrotal skin on ultrasonography

Answer 9

• Often summed together
• Well defined hyperechoic line surrounding the testicle
• Scrotal surface distal to transducer more readily imaged than that near to transducer

Question 10

Describe the appearance of the epididymis on ultrasonography

Answer 10

• Hypoechoic compared to testicular parenchyma
• Close to testicular tunic
• Cannot apply line of separation

Question 11

Describe the ultrasonographic appearance of the prostatic parenchyma

Answer 11

• Moderately echogenic
• Diffuse coarse stippling
• Well circumscribed
• Symmetrical bi-lobed outline, midline furrow dorsal to the prostatic urethra
• Urethra and capsule difficult to identify, vas deferens not possible to visualise
• Small and hypoechoic in castrated male

Question 12

What is the main reason for veneral swabbing in stallions?

Answer 12

• Swabbing for contagious equine metritis (Taylorella equigenitalis)
• Also Kelbsiella

Question 13

Describe the method for veneral swabbing in stallions

Answer 13

• Stallion erect, urethra lubricated
• First swab urethra, then urethral space, then shaft
• Different swab for each location
• Medium sized tip, charcoal transport medium

Question 14

Why might a reproductive exam be performed in the cow?

Answer 14

• Abnormalitites before, during or after calving
• Non-bulling cows
• Failure to conceive

Question 15

Outline the features of a reproductive clinical history in the cow

Answer 15

• Calving date
• Abnormalities observed around parturition
• Abnormalities in pre/post calving period
• Observed oestrus
• Service dates and history
• Previous repro treatment
• General health and milk production
• Milk progesterone profile (not routine)

Question 16

What is the actioin of GnRH?

Answer 16

Stimulates FSH adn LH release

Question 17

What are the potential pharmacological effects of GnRH administration in the follicular phase?

Answer 17

• Superovulation
• Treatment of follicular cysts
• Increases pregnancy rates
• Improved concption rates if at time of service
• Stimulates ovulation if dominant follicle present

Question 18

What are the potential pharmocological effects of GnRH in the luteal phase?

Answer 18

• Induction of parturition, increased regression of CL
• Gonadal suppression if too much administered(negative feedback to reduce GnRH secretion)
• Speed up development of follicles, or formation of accessory follicles

Question 19

What is the action of FSH in the female?

Answer 19

• Stimulation of E2 production

- Recruitment of small antral follicle

Question 20

What are the potential pharmacological effects of FSH in the follicular phase?

Answer 20

Superovulation due to stimulation of multiple follicle growth

Question 21

What are the potential pharmacological effects of FSH in the luteal phase?

Answer 21

• Stimulate new follicle wave
• Little effect
• May aid dominant follicle develop further

Question 22

What is the action of LH in the female?

Answer 22

• Stimulates dominance and growth of large antral follicles
• Stimulates E2 and ovulation
• Luteal P4 production

Question 23

What are the potential pharmacological effects of LH in the follicular phase?

Answer 23

• Stimulate ovulaton
• Improves conception
• Treatment of cystic ovaries

Question 24

What are the potential pharmacological effects of LH in the luteal phase?

Answer 24

Maintain CL (2-3 days) if given 12 days after heat (useful to synchronise herd)

Question 25

What are the primary actions of oestradiol in the female?

Answer 25

• Uterus proliferation, tone and blood flow
• Oestrus behaviour
• gnRH release (stimulatory at high conc, inhibitory at low)
• Suppresses FSH secretion

Question 26

What are the potential pharmacological effects of oestradiol in the follicular phase?

Answer 26

• Oestrus behaviour increased
• GnRH/LH sruge
• Ovulation

Question 27

What are the potential pharmacological effects of oestradiol in the luteal phase?

Answer 27

Luteolysis at high doses

Question 28

What are the primary actions of progesterone in the female?

Answer 28

• Stimulates production of histotroph (branching/coiling of glands)
• Suppresses oestrus
• Suppresses GnRH/ovulation

Question 29

What are the potential pharmacological effects of progesterone in the follicular phase?

Answer 29

Contraceptive by inhibiting ovulation

Question 30

What are the potential pharmacological effects of progesterone in the follicular phase?

Answer 30

• Maintains luteal phase
• Drop in progesterone on removal causes expression of oxytocin receptors and so can lead to ovulation
• Can be used for pregnancy termination

Question 31

What are the actions of oxytocin in the female?

Answer 31

• PGF2a production if OXTR present
• Milk ejection
• Myometrial contractions

Question 32

What are the potential pharmacological actions of oxytocin in the follicular phase?

Answer 32

None

Question 33

What are the potential pharmacological actions of oxytocin at parturition?

Answer 33

• Stimulation of contractions during parturition to remove uterine debris
• Induce premature parturition
• Improves post-partum involution and stimulation of milk secretion

Question 34

What are the potential pharmacological actions of oxytocin in the luteal phase?

Answer 34

No effect on cycle

Question 35

What are the actions of PGF2a in the female?

Answer 35

Luteolysis

Question 36

What are the potential pharmacological actions of PGF2a in the follicular phase?

Answer 36

None (does not alter follicular growth)

Question 37

What are the potential pharmacological effects of PGF2a in the luteal phase?

Answer 37

• Luteolysis
• Induction and synchronisation of calving
• Regress persistent Cl
• Abortion
• Treatment of open pyometra
• Treatment of pseudoanoestrus and silent heat

Question 38

Describe synchronisation of oestrus in cows using 2 doses of PGF2a

Answer 38

• PG at day 0 of protocol
• Will lyse CL if present, or no effect if in follicular phase or very early luteal where CL non-responsive to PGF2a
• PG again 11 days later - all will be in luteal phase so PGF2a will have an effect
• Will bring all cows back to oestrus at same time

Question 39

Describe herd cycle synchronisation using the OvSynch protocol

Answer 39

• GnRH day 0
• Causes ovulation of any dominant follicles if one present, no effect if in luteal phase
• CL will pregress with time or PG injection
• PG administered day 7 of protocol: Leads to CL regression of one that was either already present before GnRH, or one that was formed from ovulation due to GnRH = all in follicular phase
• GnRH on day 9 then stimulates ovulation of the follicles at the same time

Question 40

Outline how pancytopaenia occurs in ferrets

Answer 40

• If not mated, remain in heat (induced ovulators)
• High oestrogen maintained for rest of breeding season (6 months)
• Causes severe bone marrow suppression leading to anaemia

Question 41

Why is neutering not a common option for prevention of pancytopaenia in ferrets?

Answer 41

Can lead to hyperadrenocorticism

Question 42

Give options for preventing oestrogen aplastic anaemia in ferrets

Answer 42

• Induce ovulation using sterile (vasectomised) male or manual stimulation
• Mate and have a litter
• hCG administration
• Progesterone administration
• GnRH analogues

Question 43

Describe treatment of oestrogen induced aplastic anaemia in ferrets

Answer 43

• Mating with sterile mate
• Blood transfusion (difficult in ferrets)
• Hormone therapy e.g. gonadotrophins (hCG) to stimulate ovulation
• Primary concern is to stimulate ovulation then deal with anaemia

Question 44

In order of susceptibility (most to least) what species are susceptible to oestrogen toxicity

Answer 44

• Cats
• Ferrets
• Rats
• Mice
• Dogs

Question 45

In what situations does oestrogen toxicity occur in dogs?

Answer 45

• Only when therapeutic administration

- When sued to treat pyometra can cause myelotoxicity