embryo transfer

Embryo Transfer in Small Ruminants:

- used a lot less than AI

What is it?

- Goal: to get more offspring out of elite females

- Elite females are used as egg “donors”

- Caused to super-ovulate through hormone therapy

O Females are allowed to ovulate and be bred

- Embryos develop to a determine stage and are then harvested

- Harvested embryos are put into “recipient” animals and are carried to term or frozen for future transfer

Why go to the trouble?

- More offspring out of elite females

- Number of breeding females can be reduced

- Increases rate of improvement

- More uniform set of offspring to market

- Storing of important genetic material

- International movement of important genetics

- Ability to breed out of season; frozen embryos

- Shorten lambing/kidding season

- Biosecurity

- Extend the productive life of a female who can no longer carry/raise offspring

Disadvantages:

- Cost

o Cost of AI and collection of embryos

- Risks to donors

o Scarring, infection, possibility of infertility

- Additional labor needed

- Keeping recipients on hand

- Genetic factor for super-ovulation

Initial Considerations:

- Is it economically feasible for your operation?

- Do you have the facilities to support a program?

- How many females will be in the program?

- When do you want the lamb/kid crop?

- How will you acquire/manage recipients?

- Are you willing to risk the reproductive soundness of valuable females?

- What sire will you use?

- Will artificial insemination be incorporated into the program?

Recipient Selection:

- GOOD embryos mean NOTHING without GOOD recipients

- Important factors for success…

o Appropriately sized

o Good milkers

o At least second parity females

o Calm disposition – good maternal characteristics

o Good body condition – a little on the thin side

o Consider using recipients that can be incorporated into your breeding program

o Get your recipients way ahead of time

Synchronization:

- Donors and recipients must be synchronized

o Start about 3 weeks before flush

o CIDR put in donors and recipients at the same time

o All ET technicians have different protocols

- Protocol changes based on season

- Different “drugs” can be used to achieve same result

Donor Synchronization:

- Estrus cycle of a goat is 21 days on avg

o Can be 18-23 days

o Ovulation is considered day 1 of cycle

o Estrus last from 24-48 hours

o Ovulation occurs 24-36 hours after onset of estrus

- Donors induced into heat and caused to super-ovulate

o CIDR is put in and left for 14 days

o Pull CIDR 8.5 days before flush

o FSH injections start around 3 days before CIDR pull

o 10cc of FSH is a standard total dose over 3 day period

o FSH dose usually decreases between first an last injection

o Donors will start coming into heat within 24 hours of CIDR pull

- Is it CRITICAL to correctly execute the protocol

o Familiarize yourself with the schedule ahead of time

o Use a checklist/dry erase board to record progress

o Colored chalk can help for marking donors after each injection

o A good chute aids the process

o Give shots as quick as possible from start to finish

o Look for pulled CIDRs

- Cut off end

- Heats and breeding

o If using AI – inseminate 48 hours after CIDR pull

o Use a teaser buck

o Check donors often

o Try to get 2-3 breedings on each donor

o Take the buck to the doe

o Record date and time of each breeding for each doe

o Re-CIDR donors 4.5 days after CIDR pull (108 hours)

- Simulates CL formation

Success Rate:

- Factors…

o General health of females (nutrition etc.)

o Body condition

o Breed

o Reproductive history

o Age

o Genetics

o Efficiency of semen (fresh/frozen)

o Stress

o Weather/season (males and females)

What to expect:

- 8 transferrable embryos per donor is good for mature females

- Some donors wont stimulate

- Does 2-5 years old average more embryos than maiden does or old does

- Infertile and degenerated embryos aren’t uncommon

- 70% conception on recipients is average

- Seasons make a big difference

Surgical vs. Non-surgical:

- Sheep and goats CAN NOT be flushed like cattle

o Can’t be palpated

o Cervix is smaller/tighter and not straight

o Post ovulation – cervix is particularly constricted

- Traditional procedure is surgical

o Incise the abdomen and bring uterus outside the body to flush

- There is a non-surgical procedure available in goats

o Flush through a catheter like in cattle

Surgical Procedure:

Pros-

- Faster better recovery rate (questionable)

- More technician available

- Uterus is accessible in ALL animals

Cons-

- More invasive

- Greater risk of infection

- Lower/NO success on regressed flushes

- Scarring

Non-surgical procedure:

Pros-

- Less invasive

- Much less risk of scarring/adhesions

- Less infection

- Much quicker recovery for donors (can flush more often)

- Greater success in regressed flushes

Cons-

- Limited technicians

- Only available in goats

- Takes more time

- In some instances, it is impossible to pass a catheter

Flush Procedure – Surgical

- If flushing and transferring on the same day

o 12 donors is maximum

- Sometimes it is beneficial to flush half and transfer those embryos

o Then flush remaining donors and transfer

- Females must be off feed and water the night before flush day

- A clean, dust free environment is needed

- Running water is ideal

- Embryos usually collected 6-7 days after breeding

o By this time, they have been fertilized

o Usually in morula or blastocyst stage

- Waiting 6-7 days gives time for embryos migrate to uterine horns

o This makes it easier to retrieve the embryos

- All donors must be fully anesthetized

- Surgical site clipped and sanitized

- Does placed on cradles belly up

- Cradle inverted

- Trocars inserted and laparoscope introduced to check ovaries

o Ovulations turn into CLs

- Each CL indicates an ovulation

- You can estimate number of embryos to be recovered this way

- If no/few ovulations, might not flush

- Some might choose to look at ovaries during surgery (not ideal)

- Ultrasound is also a possibility

- Female is laid belly up on cradle

- Surgical drape is placed over animal exposing only surgery site

- Incision is made on midline ( 2”- 4”)

o Skin and muscle are incised

- Female is inverted to bring uterus into view of laparoscope

- Forceps are used to “grab” the uterus and bring it outside the body

- Cradle is then returned to flat position

- It is important to keep uterus irrigated during entire procedure

- Each uterine horn is flushed individually

- Embryos are usually towards the end of the horns

- General technique is to flush from tip of horn to base

- Foley catheter is inserted at base of horn

- A small hole is made at the top of the uterine horn

o Small catheter is placed through this entrance

- Flush media is forced through syringe, through catheter, and through uterine horn

- Media flows out through the Foley catheter

- Assistant is holding a collection dish below the Foley catheter

- All media is caught in dish

- After a thorough flush the catheters are removed

- Second horn is flushed in the same manner

Flush Media:

- Flush Media is a commercially prepared product

- Designed to simulate composition of uterine environment

- It has nutrients (protein source) , antibiotics (gentamycin and kanamycin), etc.

- We used Vigro Complete Flush

o Made by Bioniche Animal Health

- Catheters are removed and uterus is returned to body cavity

- Incision is sutured

o First muscle then skin

o Some prefer to use staples

- GIVE SHOT OF LUTALYSE

o Lutalyse causes CL on ovaries to die and not produce progesterone and not produce pregnancy

Non-surgical Procedure:

- Uterus is not externalized

o Catheter is passed through cervix similar to cattle

o No ability to palpate

o Ovaries checked for CLs with laparoscope just as in surgical procedure

- Vaginal speculum is used visualize cervix

o “Grab” the os of cervix with Alice forceps

o Makes passing catheter easier

- We used primarily cut down IMV ET sheaths (about 2mm diameter)

- “Blind” process

- Some does are more difficult to pass a catheter in than others

- Some smaller catheters are needed

- Passing catheter can take from 1min to 1 hour

- Once the catheter is passed through cervix:

- Surgical tubing is attached to catheter

- It is split two ways

o One is Flush media flowing in

o The other is media coming out of the uterus

o 3 way valve controls flow

o Flush media (in IV bag) is elevated on IV stand for gravity flow

- Once the catheter is passed through cervix:

- Technician should be able to feel bifurcation and flush each uterine horn individually

- Each horn is filled with media, massaged externally, and then media is allowed to flow out into embryo filter

- Increasing media is used for each flush

- Each horn flushed approx. 4-5 times

- Media in filter is periodically being checked for embryos

o If estimated number aren’t recovered…keep flushing

- Emcom Embryo Filter

o Filter screen is 75

o Embryos are about 100 microns

- If embryo recovery is slow/poor:

o With regressed CLs:

§ Embryos could already be expelled

- Embryo development could be delayed and embryos are still in the very tips of uterine horns

- Previous surgical flushes caused a disfigured, contorted uterus with adhesions

- There could be a blockage in the uterine horns preventing a good flush

- A laparoscopic camera can be used in conjunction with a steel flush catheter to look for blockages

o This is the future of non-surgical flushing

Embryology:

- After flushing the donor—embryology is the same for surgical and non-surgical flushing

o Process requires at least two people

§ One to flush and one to act as embryologist

o Media that has been flushed out of uterus must now be searched under microscope

§ Embryos are not visible to naked eye

o Scopes used are “stereo” microscopes

§ Large field of view and low magnification

- Flush media is emptied from filter into a “grid dish”

o Some surgical flush techs flush directly into a dish

o Filters must be emptied and the screen thoroughly washed

- Surgical flushes are “cleaner” and easier to search

- Non-surgical flushes contain lots of endometrial cells that must be sorted through

- When an embryo is found it is removed with a pipette and moved to another dish with “holding media”

- Embryos from each donor are placed in separately labeled dishes

- Holding media:

o Designed to simulate uterine environment

o Provides essential amino acids, growth factors, enzymes, energy substrates and antibiotics

o Just for holding embryos between flushing and freezing/transfer

o Not for embryo culture

o Sometimes embryo quality actually appears to improve during holding period

o We used Holding Plus from ViGro

- Most embryos will be 6-7 days old

o Usually early “morula” to late “blastocyst”

o Infertile and degenerate embryos can be sorted out

o Viable embryos are graded for stage and quality

o The only way to be proficient at grading:

§ Practice, Practice, Practice

- Embryos can be frozen or transferred to recipients

- Better quality embryos handle the freezing process better

- Zona must be intact for freezing

- If freezing and transferring:

o Freeze the better quality embryos

o Transfer the rest

- Freeze as quickly after flushing as is practical

Transfers:

- Recipients are synchronized at same stage as donors

o They are “ready” to accept embryos

- If recipients responded correctly, they will have ovulated and formed functional CLs

- Any recipient not seen in heat after CIDR pull should be rejected

- Any recipient appearing to be coming back into heat on transfer day should be rejected

- Each recipient (sheep and goats) usually receives two embryos……occasionally three

Transfer Procedure:

- Recipients are fully anesthetized

- Placed in cradles..belly up

- Surgical site is prepared

- Cradle is inverted

- One trocar is inserted precisely like before

- A small incision ( 1 cm ) is made on midline for forceps to go through

- Laparoscope is introduced to check for functional CLs

- If good CLs are located…the recipient is ready for a transfer

- Laparoscope and cannula are removed

- Small end of uterine horn is brought through the incision with forceps

- Whichever side had the CLs or better quality CLs is the side to make the transfer in

- About 1.5” of uterus is exposed with a diameter similar to a pencil

- A small hole is made in the uterus

- Embryos are loaded in a “tomcat” catheter with a small syringe attached

- Tip of catheter is inserted through the hole in the uterine horn

- Syringe is plunged and embryos are deposited into uterus

- Uterus is put back in body cavity

- One suture is required to close the incision

- RECORDS ARE IMPORTANT

o Each recipient should have an original ear-tag with donor information and estimated

o Each recipient should have an original ear-tag with donor information and estimated birth date of transferred embryos

§ About 143 days from transfer date

o All donors and recipients can be offered feed and water immediately after the procedure

o Some form of antibiotic injection is beneficial

o Wait at least two weeks before turning in a buck with recips

o Donors can be bred on next cycle