Progesterone devices are broadly used in the control of reproductive management in
livestock. They work by increasing circulating plasma progesterone levels with the following consequences:
Low levels of GnRH prevent the emergence of a dominant
follicle by reducing the release of
LH and
FSH hormones. Current follicular waves cease and a new wave emerges 3–5 days after implant.
A dominant follicle develops but there is no
ovulation as LH release is prevented by suppression of GnRH.
Removal of progesterone device produces a surge of GnRH, generating a pulse of LH that induces ovulation.
Methods of progesterone administration
Progesterone Releasing Intravaginal Device (PRID). For use in cattle and buffalo. They consist on a stainless spiral coil coated with an inert silicone rubber matrix impregnated in progesterone (1.55g). It has a nylon string that is placed hanging out of the vagina. Tying a loop on the string can facilitate removal of the device in the event the string is shortened to prevent rogue heifers or cows pulling them out. The coil has been commercially available since the mid 1970s. It originally included a capsule of
oestradiol valerate. The use of o
estrogens in the food producing industry in the EU was banned in 1981[1] because of their suggested
carcinogenic effects. These substances are still approved for use in the US and many other countries, including Australia, Canada and New Zealand. The coil is licensed to use with fixed time
artificial insemination
Controlled Internal Drug Release (CIDR). For use in cattle and buffalo. This is a T-shaped silicone elastomer device impregnated in progesterone (1.38g). It has a plastic tail to ease removal.
The curve of plasma progesterone in
ovariectomised cows fitted with either PRID or CIDR show similar overall levels with a more obvious initial peak in the coil versus the t-shaped device. It has been suggested that this increased level of plasma progesterone is due to optimal contact of the coil with the vaginal walls. Some heifers resent insertion of either device as it involves penetration of the hymen.
Device retention is high (around 98%) in both PRID and CIRD. Reasons for loss include overlubrication, pneumovagina, rogue cows pulling out the nylon string or plastic tail and slack cows, large breeds after several calvings.
Progestogen impregnated intravaginal sponge. For use mainly in sheep.
Clinical uses of Progesterone devices
Synchronisation of
oestrus in conjunction with
prostaglandin F2α.[2] The PGF2α injection helps to ensure there is no residual CL and the potentially ovulating follicle has been held primed for less time, enhancing its viability. Protocol: Progesterone for 9 days. PGF2α injection on days 5-8. Serve on observed oestrus or fixed time once at 56h or twice at 48h and 72h.
^McPhee et al. (1983). Multiple use of progesterone releasing intravaginal devices for synchronisation of oestrus and ovulation in cattle. Australian Vet Journal, 60 p40-43
^López-Gatius et al. (2001). Persistent ovarian follicles in dairy cows: a therapeutic approach. Theriogenology, 56 (4), p649-59
Progesterone devices are broadly used in the control of reproductive management in
livestock. They work by increasing circulating plasma progesterone levels with the following consequences:
Low levels of GnRH prevent the emergence of a dominant
follicle by reducing the release of
LH and
FSH hormones. Current follicular waves cease and a new wave emerges 3–5 days after implant.
A dominant follicle develops but there is no
ovulation as LH release is prevented by suppression of GnRH.
Removal of progesterone device produces a surge of GnRH, generating a pulse of LH that induces ovulation.
Methods of progesterone administration
Progesterone Releasing Intravaginal Device (PRID). For use in cattle and buffalo. They consist on a stainless spiral coil coated with an inert silicone rubber matrix impregnated in progesterone (1.55g). It has a nylon string that is placed hanging out of the vagina. Tying a loop on the string can facilitate removal of the device in the event the string is shortened to prevent rogue heifers or cows pulling them out. The coil has been commercially available since the mid 1970s. It originally included a capsule of
oestradiol valerate. The use of o
estrogens in the food producing industry in the EU was banned in 1981[1] because of their suggested
carcinogenic effects. These substances are still approved for use in the US and many other countries, including Australia, Canada and New Zealand. The coil is licensed to use with fixed time
artificial insemination
Controlled Internal Drug Release (CIDR). For use in cattle and buffalo. This is a T-shaped silicone elastomer device impregnated in progesterone (1.38g). It has a plastic tail to ease removal.
The curve of plasma progesterone in
ovariectomised cows fitted with either PRID or CIDR show similar overall levels with a more obvious initial peak in the coil versus the t-shaped device. It has been suggested that this increased level of plasma progesterone is due to optimal contact of the coil with the vaginal walls. Some heifers resent insertion of either device as it involves penetration of the hymen.
Device retention is high (around 98%) in both PRID and CIRD. Reasons for loss include overlubrication, pneumovagina, rogue cows pulling out the nylon string or plastic tail and slack cows, large breeds after several calvings.
Progestogen impregnated intravaginal sponge. For use mainly in sheep.
Clinical uses of Progesterone devices
Synchronisation of
oestrus in conjunction with
prostaglandin F2α.[2] The PGF2α injection helps to ensure there is no residual CL and the potentially ovulating follicle has been held primed for less time, enhancing its viability. Protocol: Progesterone for 9 days. PGF2α injection on days 5-8. Serve on observed oestrus or fixed time once at 56h or twice at 48h and 72h.
^McPhee et al. (1983). Multiple use of progesterone releasing intravaginal devices for synchronisation of oestrus and ovulation in cattle. Australian Vet Journal, 60 p40-43
^López-Gatius et al. (2001). Persistent ovarian follicles in dairy cows: a therapeutic approach. Theriogenology, 56 (4), p649-59