Hormonal Control of the Estrous Cyc

Hormonal Control of the Estrous Cycle

Estrous synchronization may be achieved by synchronized weaning of lactating sows; estrus occurs 4–10 days later. Administration of a commercially available combination of 400 IU of equine chorionic gonadotropin (eCG) and 200 IU of human chorionic gonadotropin (hCG) per 5 mL dose given as a single IM injection within 12 hr after weaning tightens the synchronization, and estrus occurs 4–5 days after weaning. This eCG and hCG combination also induces estrus in gilts with delayed puberty and in sows with postweaning anestrus.

Fixed-time insemination protocols continue to gain interest in the swine industry. Current recommendations call for the use of progestins to prime the gilt before administration of a GnRH analogue. With sows, a GnRH analogue is administered 83–96 hr after weaning. Breeding of both gilts and sows is then performed 20–33 hr after GnRH administration (depending on product and route of administration).

Exogenous prostaglandin induces luteolysis of the corpus luteum only after day 12 of the estrous cycle and, therefore, is not a practical agent for estrous cycle control; however, estrus may be synchronized by induction of abortion in sows pregnant >15 days by administration of PGF2α (15 mg, IM, then 10 mg, IM, 12 hr later) or an equivalent analogue. Estrus may also be synchronized by feeding altrenogest (15–20 mg, PO, daily for 14–18 days), with estrus being observed 4–9 days after the last dose with appropriate boar exposure. Combination eCG and hCG may be given on the day of progestagen withdrawal to better synchronize estrus.
Breeding

The three methods of breeding are pen mating (boar run with females), hand mating (supervised natural mating), and artificial insemination (AI). Pen mating is generally found on smaller operations and works best in a pen of pigs in various stages of the estrous cycle. Pen mating with a group of recently weaned sows is less desirable, because their estrous cycles may occur close together and lead to overuse of the boar. In hand mating, the female is usually mated two or three times during estrus, with the first service on the first day of standing estrus, and subsequent matings at 24-hr intervals; confirmed matings should be recorded. Many commercial producers breed the sow or gilt once daily as long as she will accept the boar. The use of two different boars may increase the number of pigs per litter but may mask infertility in one of the boars.

In AI programs, heat detection is performed either twice or once per day. If heat detection is performed twice per day, gilts should be inseminated twice, 8–12 hr after the onset of standing heat and again 12–16 hr later. Sows should be inseminated 24 hr after onset of standing heat and again 18–24 hr later. If heat detection is performed once per day, gilts should be inseminated within 4 hr and sows within 12–16 hr from when they were first seen in standing heat. A second insemination should be performed as described above for those animals that remain in standing heat.

Timing of AI may need to be modified based on a particular farm's availability of labor, building design, or herd genetics. Some experienced users of AI obtain satisfactory results in gilts with a timed, single insemination; however, performing two inseminations is more common. Inseminations can be performed using either single-sire (sourced from one boar) or pooled (sourced from multiple [three to six] boar ejaculates) extended semen. In general, single-sire matings are performed when particular genetic (ie, breeding or show animals) offspring are desired, whereas matings with pooled semen are used as a means to produce market hog offspring. Minimum suggested values for extended semen used within 72 hr after collection are provided in (Table: Pigs:Minimum Suggested Values of Extended Porcine Semen for Use in an Artificial Insemination ProgramTables). Total sperm numbers in a dose of semen depend on quality and storage time of the semen.