Determination of efficient CIDR application periods in timed artificial insemination of Damascus goats during the breeding season

Gökhan Doğruer; Fikret Karaca; Ece Koldaş Ürer; Nurdan Coşkun; Ayşe Merve Köse; Cafer Tayyar Ateş; Oğuzhan Özcan; M. Kemal Sarıbay

Research Article

Year 2019, Volume: 66 Issue: 1, 67 - 72, 31.12.2018

Gökhan Doğruer Fikret Karaca Ece Koldaş Ürer Nurdan Coşkun Ayşe Merve Köse Cafer Tayyar Ateş Oğuzhan Özcan M. Kemal Sarıbay

Abstract

References

1. Abecia JA, Forcada F, González-Bulnes A (2012): Hormonal control of reproduction in small ruminants. Anim Reprod Sci, 130, 173-79.
2. Ahmed MMM, Makawi SE, Jubara AS (1998): Synchronization of oestrus in Nubian goats. Small Rumin Res, 30, 113-120.
3. Amridis GS, Cseh S (2012): Assisted reproductive technologies in the reproductive management of small ruminants. Anim Reprod Sci, 130, 152-161.
4. Edmondson MA, Roberts JF, Baird AN, et al. (2012): Theriogenology of sheep and goats. 150-230. In: Pugh DG, Baird AN, (Ed). Sheep and Goat Medicine. 2nd ed. Missouri: Elsevier Saunders.
5. Engeland IV, Ropstad E, Andresen O, et al. (1997): Pregnancy diagnosis in dairy goats using progesterone assay kits and oestrous observation. Anim Reprod Sci, 47(3), 237-243.
6. Erarslan C, Karaca F (2017): Üreme Mevsiminde vajinal sünger ve kulak İmplantı uygulamalarıyla senkronize edilen kıl keçilerinde farklı zamanlarda yapılan servikal tohumlamaların gebelik oranlarına etkisi. Atatürk Üniversitesi Vet Bil Derg, 12(1), 63-70.
7. Freitas VJF, Baril G, Bosc M, et al. (1996): The influence of ovarian status on response to estrus synchronization treatment in dairy goats during the breeding season. Theriogenology, 45, 1561-1567.
8. Gordon I (1997): Controlled Reproduction in sheep and goats.University College, Dublin,Ireland.
9. Greyling JPC, van der Nest M (2000): Synchronization of oestrus in goats: Dose effect of progestagen. Small Rumin Res, 36, 201-207.
10. Holtz W, Sohnrey B, Gerland M, et al. (2008): Ovsynch synchronization and fixed-time insemination in goats. Theriogenology, 69 (7), 785-792.
11. Kenfack A, Ngoula F, Yombi-Malonga JP, et al. (2013): Prominent signs of oestrus in the West African Dwarf Goat. IJAS, 3(4), 791-795.
12. Khanthusaeng V, Navanukraw C, Moonmanee T, et al. (2013): Efficiency comparison of first use and re-use synthetic progesterone on estrus synchronization and pregnancy rates after natural breeding and Timed AI in goats. Chiang Mai Veterinary Journal, 11(1), 31-40.
13. Knights M, Singh-Knights D (2016): Use of controlled internal drug releasing (CIDR) devices to control reproduction in goats: A review. Animal Science Journal, 87, 1084-1089.
14. Kor NM, Ziaei N, Pour EE (2011): Comparison of reproductive performance in Raieni Goats following different estrous synchronization methods and subsequent eCG treatment during the natural breeding season. Global Veterinaria, 7 (6), 618-624.
15. Martemucci G, D’Alessandro AG (2011): Induction/synchronization of oestrus and ovulation in dairy goats with different short term treatments and fixed time intrauterine or exocervical insemination system. Anim Reprod Sci, 126, 187-194.
16. Menchaca A, Rubianes E (2004): New treatments associated with timed artificial insemination in small ruminant. Reprod Fertil Dev, 16, 403-413.
17. Menchaca A, Rubianes E (2007): Pregnancy Rate Obtained with Short-term Protocol for Timed Artificial Insemination in Goats. Reprod Dom Anim, 42, 590-593.
18. Motlomelo KC, Greyling JPC, Schwalbach LMJ (2002): Synchronisation of oestrus in goats: the use of different progestagen treatments. Small Rumin Res, 45, 45-49.
19. Nogueira DA, Lopes Júnior ES, de Peixoto RM, et al. (2011): Using the Same CIDR up to three times for estrus synchronization and artificial insemination in dairy goats. Acta Sci Anim Sci, 33, 321-325.
20. Omontese BO, Rekwot PI, Ate IU, et al. (2016): An update on oestrus synchronisation of goats in Nigeria. APJR, 5 (2), 96-101.
21. Romano JR (2004): Synchronization of estrus using CIDR, FGA or MAP intravaginal pessaries during the breeding season in Nubian Goats. Small Rumin Res 55, 15-19.
22. Rubianes E, Menchaca A (2003): The pattern and manipulation of ovarian follicular growth in goats. Anim Reprod Sci,78, 271-287.
23. Sarıbay MK, Karaca F, Doğruer G, et al. (2012): Effects of Long and Short Term Progestagen Treatments Plus GnRH Followed by TAI on Fertility Parameters in Lactating Hair Goats during the Transition Period. Kafkas Univ Vet Fak Derg, 18(3), 507-511.
24. Simões J (2015): Recent advances on synchronization of ovulation in goats, out of season, for a more sustainable production. APJR, 4(2), 157-165.
25. Tekin K, Daşkın A (2016): Effect of different extenders on motility and some sperm kinematics parameters in Norduz goat semen. Turk J Vet Anim Sci, 40, 490-495.
26. Vilariño M, Rubianes E, Menchaca A (2011): Re-use of intravaginal progesterone devices associated with the Short-term Protocol for timed artificial insemination in goats. Theriogenology, 75, 1195-1200.
27. Viñoles C, Forsberg M, Banchero G, et al. (2001): Effect of long-term and short-term progestagen treatment on follicular development and pregnancy rate in cyclic ewes. Theriogenology, 55, 993-1004.
28. Zamfirescu S, Anghel A, Nadolu D, et al. (2011): Plasmatic profiles of pregnancy-associated glycoprotein and progesterone levels during early pregnancy in Carpathian Goat, Annals of RSCB, 16, 2,50-53

Determination of efficient CIDR application periods in timed artificial insemination of Damascus goats during the breeding season

Year 2019, Volume: 66 Issue: 1, 67 - 72, 31.12.2018

Gökhan Doğruer Fikret Karaca Ece Koldaş Ürer Nurdan Coşkun Ayşe Merve Köse Cafer Tayyar Ateş Oğuzhan Özcan M. Kemal Sarıbay

Abstract

This research was conducted to determine the most efficient CIDR application periods in timed artificial
insemination (TAI) protocols in Damascus goats during the breeding season. Ninety-six Damascus goats were used and the animals
were randomly allocated into four equal groups. CIDR was used for 18, 12, 6 and 3 days in groups VL, L, S, and VS, respectively. 500
IU of eCG and 125 mcg of cloprostenol were administered on the day of CIDR removal. The goats were timely inseminated intracervically by cooled semen 48-60 h after removal of CIDR together with 5 mcg GnRH administration. Pregnancy rates were 62.5%,
79.2%, 75% and 62.5% in VL, L, S and VS groups, respectively. Abortion rates were 13.3%, 5.3%, 5.6% and 13.3%, also kidding rates
were found to be 86.6%, 94.7%, 94.4% and 86.6% in VL, L, S and VS groups, respectively. Fertility rates were 54.2%, 75%, 70.8%
and 54.2% in VL, L, S and VS groups, respectively. No significant difference was observed in pregnancy rates, abortion and kidding
rates among the groups (p>0.05). As a result, CIDR has a wide range of application period in TAI protocols in Damascus goats during
the breeding season. The short-term usage as short as 3 days, will offer high flexibility in TAI protocols of goats. Even no statistical
difference was obtained among the groups, lower rates of fertility in VS and VL groups may provide economic loss. Further studies
with a larger number of animals are needed to clarify the questions about fertility and economic issues.

Keywords

CIDR, goat, timed artificial insemination

References

1. Abecia JA, Forcada F, González-Bulnes A (2012): Hormonal control of reproduction in small ruminants. Anim Reprod Sci, 130, 173-79.
2. Ahmed MMM, Makawi SE, Jubara AS (1998): Synchronization of oestrus in Nubian goats. Small Rumin Res, 30, 113-120.
3. Amridis GS, Cseh S (2012): Assisted reproductive technologies in the reproductive management of small ruminants. Anim Reprod Sci, 130, 152-161.
4. Edmondson MA, Roberts JF, Baird AN, et al. (2012): Theriogenology of sheep and goats. 150-230. In: Pugh DG, Baird AN, (Ed). Sheep and Goat Medicine. 2nd ed. Missouri: Elsevier Saunders.
5. Engeland IV, Ropstad E, Andresen O, et al. (1997): Pregnancy diagnosis in dairy goats using progesterone assay kits and oestrous observation. Anim Reprod Sci, 47(3), 237-243.
6. Erarslan C, Karaca F (2017): Üreme Mevsiminde vajinal sünger ve kulak İmplantı uygulamalarıyla senkronize edilen kıl keçilerinde farklı zamanlarda yapılan servikal tohumlamaların gebelik oranlarına etkisi. Atatürk Üniversitesi Vet Bil Derg, 12(1), 63-70.
7. Freitas VJF, Baril G, Bosc M, et al. (1996): The influence of ovarian status on response to estrus synchronization treatment in dairy goats during the breeding season. Theriogenology, 45, 1561-1567.
8. Gordon I (1997): Controlled Reproduction in sheep and goats.University College, Dublin,Ireland.
9. Greyling JPC, van der Nest M (2000): Synchronization of oestrus in goats: Dose effect of progestagen. Small Rumin Res, 36, 201-207.
10. Holtz W, Sohnrey B, Gerland M, et al. (2008): Ovsynch synchronization and fixed-time insemination in goats. Theriogenology, 69 (7), 785-792.
11. Kenfack A, Ngoula F, Yombi-Malonga JP, et al. (2013): Prominent signs of oestrus in the West African Dwarf Goat. IJAS, 3(4), 791-795.
12. Khanthusaeng V, Navanukraw C, Moonmanee T, et al. (2013): Efficiency comparison of first use and re-use synthetic progesterone on estrus synchronization and pregnancy rates after natural breeding and Timed AI in goats. Chiang Mai Veterinary Journal, 11(1), 31-40.
13. Knights M, Singh-Knights D (2016): Use of controlled internal drug releasing (CIDR) devices to control reproduction in goats: A review. Animal Science Journal, 87, 1084-1089.
14. Kor NM, Ziaei N, Pour EE (2011): Comparison of reproductive performance in Raieni Goats following different estrous synchronization methods and subsequent eCG treatment during the natural breeding season. Global Veterinaria, 7 (6), 618-624.
15. Martemucci G, D’Alessandro AG (2011): Induction/synchronization of oestrus and ovulation in dairy goats with different short term treatments and fixed time intrauterine or exocervical insemination system. Anim Reprod Sci, 126, 187-194.
16. Menchaca A, Rubianes E (2004): New treatments associated with timed artificial insemination in small ruminant. Reprod Fertil Dev, 16, 403-413.
17. Menchaca A, Rubianes E (2007): Pregnancy Rate Obtained with Short-term Protocol for Timed Artificial Insemination in Goats. Reprod Dom Anim, 42, 590-593.
18. Motlomelo KC, Greyling JPC, Schwalbach LMJ (2002): Synchronisation of oestrus in goats: the use of different progestagen treatments. Small Rumin Res, 45, 45-49.
19. Nogueira DA, Lopes Júnior ES, de Peixoto RM, et al. (2011): Using the Same CIDR up to three times for estrus synchronization and artificial insemination in dairy goats. Acta Sci Anim Sci, 33, 321-325.
20. Omontese BO, Rekwot PI, Ate IU, et al. (2016): An update on oestrus synchronisation of goats in Nigeria. APJR, 5 (2), 96-101.
21. Romano JR (2004): Synchronization of estrus using CIDR, FGA or MAP intravaginal pessaries during the breeding season in Nubian Goats. Small Rumin Res 55, 15-19.
22. Rubianes E, Menchaca A (2003): The pattern and manipulation of ovarian follicular growth in goats. Anim Reprod Sci,78, 271-287.
23. Sarıbay MK, Karaca F, Doğruer G, et al. (2012): Effects of Long and Short Term Progestagen Treatments Plus GnRH Followed by TAI on Fertility Parameters in Lactating Hair Goats during the Transition Period. Kafkas Univ Vet Fak Derg, 18(3), 507-511.
24. Simões J (2015): Recent advances on synchronization of ovulation in goats, out of season, for a more sustainable production. APJR, 4(2), 157-165.
25. Tekin K, Daşkın A (2016): Effect of different extenders on motility and some sperm kinematics parameters in Norduz goat semen. Turk J Vet Anim Sci, 40, 490-495.
26. Vilariño M, Rubianes E, Menchaca A (2011): Re-use of intravaginal progesterone devices associated with the Short-term Protocol for timed artificial insemination in goats. Theriogenology, 75, 1195-1200.
27. Viñoles C, Forsberg M, Banchero G, et al. (2001): Effect of long-term and short-term progestagen treatment on follicular development and pregnancy rate in cyclic ewes. Theriogenology, 55, 993-1004.
28. Zamfirescu S, Anghel A, Nadolu D, et al. (2011): Plasmatic profiles of pregnancy-associated glycoprotein and progesterone levels during early pregnancy in Carpathian Goat, Annals of RSCB, 16, 2,50-53

There are 28 citations in total.

Details

Primary Language	Turkish
Journal Section	Research Article
Authors	Gökhan Doğruer Fikret Karaca Ece Koldaş Ürer Nurdan Coşkun Ayşe Merve Köse Cafer Tayyar Ateş Oğuzhan Özcan M. Kemal Sarıbay
Publication Date	December 31, 2018
Published in Issue	Year 2019Volume: 66 Issue: 1

Cite

APA	Doğruer, G., Karaca, F., Koldaş Ürer, E., Coşkun, N., et al. (2018). Determination of efficient CIDR application periods in timed artificial insemination of Damascus goats during the breeding season. Ankara Üniversitesi Veteriner Fakültesi Dergisi, 66(1), 67-72.
AMA	Doğruer G, Karaca F, Koldaş Ürer E, Coşkun N, Merve Köse A, Ateş CT, Özcan O, Sarıbay MK. Determination of efficient CIDR application periods in timed artificial insemination of Damascus goats during the breeding season. Ankara Univ Vet Fak Derg. December 2018;66(1):67-72.
Chicago	Doğruer, Gökhan, Fikret Karaca, Ece Koldaş Ürer, Nurdan Coşkun, Ayşe Merve Köse, Cafer Tayyar Ateş, Oğuzhan Özcan, and M. Kemal Sarıbay. “Determination of Efficient CIDR Application Periods in Timed Artificial Insemination of Damascus Goats During the Breeding Season”. Ankara Üniversitesi Veteriner Fakültesi Dergisi 66, no. 1 (December 2018): 67-72.
EndNote	Doğruer G, Karaca F, Koldaş Ürer E, Coşkun N, Merve Köse A, Ateş CT, Özcan O, Sarıbay MK (December 1, 2018) Determination of efficient CIDR application periods in timed artificial insemination of Damascus goats during the breeding season. Ankara Üniversitesi Veteriner Fakültesi Dergisi 66 1 67–72.
IEEE	G. Doğruer, “Determination of efficient CIDR application periods in timed artificial insemination of Damascus goats during the breeding season”, Ankara Univ Vet Fak Derg, vol. 66, no. 1, pp. 67–72, 2018.
ISNAD	Doğruer, Gökhan et al. “Determination of Efficient CIDR Application Periods in Timed Artificial Insemination of Damascus Goats During the Breeding Season”. Ankara Üniversitesi Veteriner Fakültesi Dergisi 66/1 (December 2018), 67-72.
JAMA	Doğruer G, Karaca F, Koldaş Ürer E, Coşkun N, Merve Köse A, Ateş CT, Özcan O, Sarıbay MK. Determination of efficient CIDR application periods in timed artificial insemination of Damascus goats during the breeding season. Ankara Univ Vet Fak Derg. 2018;66:67–72.
MLA	Doğruer, Gökhan et al. “Determination of Efficient CIDR Application Periods in Timed Artificial Insemination of Damascus Goats During the Breeding Season”. Ankara Üniversitesi Veteriner Fakültesi Dergisi, vol. 66, no. 1, 2018, pp. 67-72.
Vancouver	Doğruer G, Karaca F, Koldaş Ürer E, Coşkun N, Merve Köse A, Ateş CT, Özcan O, Sarıbay MK. Determination of efficient CIDR application periods in timed artificial insemination of Damascus goats during the breeding season. Ankara Univ Vet Fak Derg. 2018;66(1):67-72.

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