Effects of Farrowing Induction on Some Farrowing Characteristics in the Pig − A Review

Alexopoulos C., Saratsis P., Samouilidis S., Saoulidis K., Brozos C., Kyriakis S. (1998). The effect of cloprostenol alone or with oxytocin on induction of parturition, litter characteristics and subsequent fertility of the sow. Reprod. Domest. Anim., 33: 83–88. Search in Google Scholar

Baxter E.M., Jarvis S., D’Eath R.B., Ross D.W., Robson S.K., Farish M., Nevison I.M., Lawrence A.B., Edwards S.A. (2008). Investigating the behavioural and physiological indicators of neonatal survival in pigs. Theriogenology, 69: 773–783. Search in Google Scholar

Baxter E.M., Jarvis S.B., Sherwood L., Robson S.K., Ormandy E.H., Farish M., Smurthwaite K.M., Roehe R., Lawrence A.B., Edwards S.A. (2009). Indicators of piglet survival in an outdoor farrowing system. Livest. Sci., 124: 266–276. Search in Google Scholar

Beaulieu A.D., Aalhus J.L., Williams N.H. Patience J.F. (2010). Impact of piglet birth weight, birth order, and litter size on subsequent growth performance, carcass quality, muscle composition, and eating quality of pork. J. Anim. Sci., 88: 2767–2778. Search in Google Scholar

Boland M.P., Herlihy M.J. (1982). Induction of parturition in the pig using a new prostaglandin analogue (K11941). Theriogenology, 17: 193–197. Search in Google Scholar

Boonraungrod N., Sutthiya N., Kumwan P., Tossakui P., Nuntapaitoon M., Muns R., Tummaruk P. (2018). Control of parturition in swine using PGF_2a in combination with carbetocin. Livest. Sci., 214: 1e8. Search in Google Scholar

Borges V.F., Bernardi M.L., Bortolozzo F.P., Wentz I. (2005). Risk factors for stillbirth and foetal mummification in four Brazilian swine herds. Prev. Vet. Med., 70: 165–176. Search in Google Scholar

Calderón Díaz J.A., García Manzanilla E., Diana A., Boyle L.A. (2018). Cross-fostering implications for pig mortality, welfare and performance. Front. Vet. Sci., 5: 123–123. Search in Google Scholar

Cassar G., Kirkwood R., Friendship R., Poljak Z. (2005). Sow and litter performance following farrowing induction with prostaglandin: effect of adjunct treatments with dexamethasone or oxytocin. J. Swine Health Prod., 13: 81e5. Search in Google Scholar

Cern F., Jöchle W. (1981). Clinical evaluations of a new prostaglandin analog in pigs: 1. Control of parturition and of the MMA-syndrome. Theriogenology, 16: 459–467. Search in Google Scholar

Chantaraprateep P., Prateep P., Lohachit C., Poomsuwan P., Kunavongkrit A. (1986). Investigation into the use of prostaglandin F_2α (PGF_2α) and oxytocin for the induction of farrowing. Aust. Vet. J., 63: 254–256. Search in Google Scholar

De Rensis F., Sottocorona M., Kirkwood R.N. (2002). Effect of pros-taglandin and dexamethasone injection on farrowing and piglet neonatal growth. Vet. Rec., 151: 330–331. Search in Google Scholar

Decaluwé R., Janssens G.P., Englebienne M., Maes D. (2014). Effectiveness of different farrowing induction protocols in sows using alphaprostol on day 114 of gestation. Vet. Rec., 174: 381. Search in Google Scholar

Diehl J.R., Newby T.J. (1989). Dosage response evaluation of luprostiol administered to pregnant sows. Theriogenology, 32: 11–17. Search in Google Scholar

Dimitrov S., Bone G., Penchev I., Krejci R. (2012). Induction of parturition in sows with prostaglandin analog Alfaprostol. J. Agric. Sci. Technol., 4: 358–360. Search in Google Scholar

Feldpausch J.A., Jourquin J., Bergstro J.R., Bargen J.L., Bokenkroger C.D., Davis D.L., Gonzalez J.M., Nelssen J.L., Puls C.L., Trout W.E., Ritter M.J. (2019). Birth weight threshold for identifying piglets at risk for preweaning mortality. Transl. Anim. Sci., 3: 633–640. Search in Google Scholar

Foisnet A., Farmer C., David C., Quesnel H. (2011). Farrowing induction induces transient alterations in prolactin concentrations and colostrum composition in primiparous sows. Transl. Anim. Sci., 89: 3048–3059. Search in Google Scholar

Fraser D., Connor M.L. (1984). Effect of dosage of cloprostenol on induction of farrowing and body temperature of sows. Can. Vet. J., 25: 421–423. Search in Google Scholar

Gaggini T.S., Perin J., Arend L.S., Bernardi M.L., Wentz I., Bortolozzo F.P. (2013). Altrenogest treatment associated with a farrowing induction protocol to avoid early parturition in sows. Reprod. Domest. Anim., 48: 390–395. Search in Google Scholar

Gall M.A., Day B.N. (1987). Induction of parturition in swine with prostaglandin F_2α, estradiol benzoate and oxytocin. Theriogenology, 27: 493–505. Search in Google Scholar

Gokuldas P.P., Tamuli M.K., Mohan N.H., Barman K., Chutia T., Mahapatra R.K. (2015). Farrowing response and piglet viability following Cloprostenol-induced farrowing in Duroc sows with prolonged gestation. J. Appl. Anim. Res., 43: 153–156. Search in Google Scholar

Gunvaldsen R., Waldner C., Harding J. (2007). Effects of farrowing induction on suckling piglet performance. J. Swine Health Prod., 15: 84e91. Search in Google Scholar

Hernandez V., Canseco A., Hernandez J. (2009). Programmed farrowing with prostaglandin and oxytocin in the sow. J. Anim. Vet. Adv., 8: 1045–1048. Search in Google Scholar

Hlavová K., Kudláčková H., Faldyna M. (2020). The impact of parturition induction with cloprostenol on immunological parameters in the sow colostrum. Porc. Health Manag., 6: 35. Search in Google Scholar

Kaeoket K. (2006). The effect of dose and route of administration of R-cloprostenol on the parturient response of sows. Reprod. Domest. Anim., 41: 472–476. Search in Google Scholar

Kirkwood R.N. (2015). Induction of parturition in sows. Thai. J. Vet. Med., 45: 487–491. Search in Google Scholar

Kirkwood R.N., Aherne F.X. (1998). Increasing the predictability of cloprostenol-induced farrowing in sows. J. Swine Health Prod., 6: 57–59. Search in Google Scholar

Kirkwood R.N., Thacker P.A., Aherne F.X., Goonewardene L.A. (1996). The effect of dose and route of administration of prostaglandin F_2α on the parturient response of sows. JSHAP, 4: 123–126. Search in Google Scholar

Ko J.C., Evans L.E., Hsu W.H., Hopkins S.M. (1989). Farrowing induction with cloprostenol-xylazine combination. Theriogenology, 31: 795–800. Search in Google Scholar

Koketsu Y., Tani S., Iida R. (2017). Factors for improving reproductive performance of sows and herd productivity in commercial breeding herds. Porcine Health Manag., 3: 1. Search in Google Scholar

Le Cozler Y., Guyomarc’h C., Pichodo X., Quini P.Y., Pellois H. (2002). Factors associated with stillborn and mummified piglets in high-prolific sows. Anim. Res., 51: 261–268. Search in Google Scholar

Leethongdee S., Srinonate A., Pholseang C. (2012). Induction of parturition by synthetic prostaglandin F 2 alpha and oxytocin on the reproduction performance in primiparous sows. KKU. Vet. J., 22: 198–209. Search in Google Scholar

Magnabosco D., Pereira Cunha E.C., Bernardi M.L., Wentz I., Bortolozzo F.P. (2015). Impact of the birth weight of Landrace × Large White dam line gilts on mortality, culling and growth performance until selection for breeding herd. Acta Sci. Vet., 43: 1–8. Search in Google Scholar

Magnabosco D., Bernardi M.L., Wentz I., Cunha E.C.P., Bortolozzo F.P. (2016). Low birth weight affects lifetime productive performance and longevity of female swine. Livest. Sci., 184: 119–125. Search in Google Scholar

Mills K.M., Shirley L.K., Sharp K., Garcia R., Suarez-Trujillo A., Stewart K.R. (2021). Effects of induction on the farrowing process and piglet blood parameters at the time of farrowing. Transl. Anim. Sci., 5: txab032–txab032. Search in Google Scholar

Monteiro M.S., Muro B.B.D., Poor A.P., Leal D.F., Carnevale R.F., Shiroma M.P., Almond G.W., Garbossa C.A.P., Moreno A.M., Viana C.H.C. (2022). Effects of farrowing induction with prostaglandins on farrowing traits and piglet performance: A systematic review and meta-analysis. Theriogenology, 180: 1–16. Search in Google Scholar

Mota-Rojas D., Villanueva-García D., Velazquez-Armenta E.Y., Nava-Ocampo A.A., Ramírez-Necoechea R., Alonso-Spilsbury M., Trujillo M.E. (2007). Influence of time at which oxytocin is administered during labor on uterine activity and perinatal death in pigs. Biol. Res., 40: 55–63. Search in Google Scholar

Muro B.B.D., Carnevale R.F., Andretta I., Leal D.F., Monteiro M.S., Poor A.P., Almond G.W., Garbossa C.A.P. (2021). Effects of uterotonics on farrowing traits and piglet vitality: A systematic review and meta-analysis. Theriogenology, 161: 151–160. Search in Google Scholar

Nam H.N., Sukon P. (2020 a). Associated factors for farrowing duration in sows with natural parturition in intensive conditions. World Vet. J., 10: 320–324. Search in Google Scholar

Nam H.N., Sukon P. (2020 b). Risk factors associated with stillbirth of piglets born from oxytocin-assisted parturitions. Vet. World, 13: 2172–2177. Search in Google Scholar

Nam H.N., Sukon P. (2021). Non-infectious risk factors for intrapartum stillbirth in a swine farm in the North of Vietnam. Vet. World, 14: 1829–1834. Search in Google Scholar

Nam N. H., Sukon P. (2022 a). Incidence of dystocia at piglet level in cloprostenol-induced farrowings and associated risk factors. Archiv. Anim. Breed., 6: 97–103. Search in Google Scholar

Nam N. H., Sukon P. (2022 b). Effect of oxytocin administration at different time points during parturition on the farrowing process in sows. J. Appl. Anim. Res., 51: 11–16. Search in Google Scholar

Nam H.N., Dao B.T.A., Sukon P. (2022). Effects of farrowing induction using cloprostenol on sow farrowing characteristics. Vet. World, 15: 1535–1540. Search in Google Scholar

Nguyen K., Cassar G., Friendship R.M., Dewey C.E., Farzan A., Kirkwood R.N. (2011). Stillbirth and preweaning mortality in litters of sows induced to farrow with supervision compared to litters of naturally farrowing sows with minimal supervision. J. Swine Health Prod., 19: 214–217. Search in Google Scholar

Olson G., Robine L., Rosengren L.B., Baker C.D., Duggan M., Chirino M., Weber L., Harding J.C.S. (2009). Parturition induction two days prior to term decreases birth weight and lactational growth, but not piglet maturity, health or post-weaning growth. Can. J. Anim. Sci., 89: 219–228. Search in Google Scholar

Otto M.A., Machado A.P., Moreira L.P., Bernardi M.L., Coutinho M.L., Vaz I.S. Jr., Wentz I., Bortolozzo F.P. (2017). Colostrum yield and litter performance in multiparous sows subjected to far-rowing induction. Reprod. Domest. Anim., 52: 749–755. Search in Google Scholar

Paredes S.P., Jansman A.J.M., Verstegen M.W.A., den Hartog L.A., van Hees H.M.J., Bolhuis J.E., van Kempen T.A.T.G., Gerrits W.J.J. (2014). Identifying the limitations for growth in low performing piglets from birth until 10 weeks of age. Animal, 8: 923–930. Search in Google Scholar

Smith H., Selby C., Wiliams A., Ellersieck M., Lamberson W. (2013). Effects of day of farrowing induction and spontaneous versus induced farrowing on sow and suckling piglet performance. J. Swine Health Prod., 21: 195–202. Search in Google Scholar

Smith W.C., Alley M.R., Holmes R.J., Moller K., Pearson G., Alexander A.M. (1982). The induction of parturition in sows using pros-taglandin F_2α. J. Anim. Sci. Biotechnol., 30: 34–37. Search in Google Scholar

Stone B.A., Heap P.A., Godfrey B.M. (1987). Induction of farrowing in sows with prostaglandin F2-alpha, alone or in combination with a parasympathomimetic or oxytocic. Aust. Vet. J., 64: 254–256. Search in Google Scholar

Taechamaeteekul P., Dumniem N., Sang-Gassanee K., Tummaruk P. (2022). Control of parturition in hyperprolific sows by using altrenogest and double administrations of PGF_2α. Theriogenology, 181: 24–33. Search in Google Scholar

Tospitakkul P., Kraomkaew K., Thammasin K., Uttarak P., Nuntapaitoon M., De Rensis F., Tummaruk P. (2019). Induction of parturition by double administration of prostaglandin F_2α in sows reduces the variation of gestation length without affecting the colostrum yield and piglet performance. Animal, 81: 1334–1340. Search in Google Scholar

Vallet J.L., Miles J.R. (2017). The effect of farrowing induction on colostrum and piglet serum immunocrits is dependent on parity. J. Anim. Sci., 95: 688–696. Search in Google Scholar

van Dijk A.J., van Rens B.T., van der Lende T., Taverne M.A. (2005). Factors affecting duration of the expulsive stage of parturition and piglet birth intervals in sows with uncomplicated, spontaneous farrowings. Theriogenology, 64: 1573–1590. Search in Google Scholar

Ward S.A., Kirkwood R.N., Plush K.L. (2019). Effects of oxytocin and carbetocin on farrowing performance. Anim. Reprod Sci., 205: 88–93. Search in Google Scholar

Yang P.C., Fang W.D., Huang S.Y., Chung W.B., Hsu W.H. (1996). Farrowing induction with a combination of prostaglandin F_2α and a peripherally acting α₂-Adrenergic agonist AGN 190851 and a combination of prostaglandin F_2α and oxytocin. Theriogenology, 46: 1289–1293. Search in Google Scholar

Zaremba W., Udluft T., Bostedt H. (2015). Effects of various procedures for synchronisation of parturition in sows. Assessment of sows with a complication-free birth. Tierarztl. Prax. Ausg. G: Grosstiere/Nutztiere, 43: 269–277. Search in Google Scholar