Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

Including magnesium sulfate in the diet of twin-bearing ewes in the last week of gestation improves the adaptation of lambs to extrauterine life

M. A. Minteguiaga https://orcid.org/0000-0003-4098-6735 A * , C. López Mazz https://orcid.org/0000-0002-1332-8289 B , S. Fierro https://orcid.org/0009-0003-3604-7812 C and G. Banchero https://orcid.org/0000-0002-1146-3612 D
+ Author Affiliations
- Author Affiliations

A Facultad de Veterinaria, UDELAR, Ruta 3 km 363, Paysandú 60000, Uruguay.

B Facultad de Agronomía, UDELAR, Avenue Garzón 780, Montevideo 12900, Uruguay.

C Secretariado Uruguayo de la Lana (SUL), Servando Gómez 2408, Montevideo 12100, Uruguay.

D Instituto Nacional de Investigación Agropecuaria (INIA), Ruta 50 km 11, Colonia 70000, Uruguay.

* Correspondence to: maurominteguiaga@gmail.com

Handling Editor: Andy Greer

Animal Production Science 64, AN24022 https://doi.org/10.1071/AN24022
Submitted: 2 February 2024  Accepted: 14 July 2024  Published: 2 August 2024

© 2024 The Author(s) (or their employer(s)). Published by CSIRO Publishing

Abstract

Context

Most deaths of lambs in the first days of life are due to failure to adapt to extrauterine life.

Aims

This study aimed to test the hypothesis that adding magnesium sulfate (MgSO4) to the diet of twin-bearing ewes in the last week of gestation improves the adaptation to the extrauterine life of the lambs.

Methods

Eighty-three multiparous Finnish × Polwarth ewes carrying twins in the last week of gestation were MgSO4 supplemented (n = 40) or allocated to control (n = 43). We recorded the durations of gestation, expulsion and lambing, interlambing interval, and birthweights, meconium score, lamb rectal temperature (at birth and 3 h after birth), whether assistance was needed (yes or no) and time from lamb expulsion to stand and to suck (n = 148). A jugular blood sample of the lambs was analysed for acidity, partial pressures of CO2 and oxygen; active and standard HCO3, blood base excess (BE b) and extracellular fluid base excess (BE ecf), saturated oxygen, and total CO2 concentration. Glucose was analysed with a portable device.

Key results

Gestation was longer in supplemented ewes (147.7 ± 2.0 vs control: 146.7 ± 1.7 days, P < 0.05). Birthweight and litter birthweight of lambs were higher when ewes were supplemented (3.74 ± 0.6 and 7.47 ± 0.9 kg vs control: 3.51 ± 0.5 and 7.02 ± 0.9 kg, P < 0.05). The need for assistance, meconium score, durations of expulsion and lambing, and time to stand and to suck were not different between treatments (P > 0.05). The interlambing interval was shorter in the supplemented ewes (6.7 ± 2.7 m vs control: 10.4 ± 2.6, P < 0.05). Lamb rectal temperature was not different between treatments 3 h after birth, but at birth was lower in lambs of supplemented ewes (P < 0.05). Treatments did not differ in blood acidity, CO2 partial pressure and total concentration, active and standard HCO3, both measures of base excess, nor blood glucose. Lambs of supplemented ewes had higher oxygen saturation and partial pressure (P < 0.05).

Conclusions

The MgSO4 supplementation improves the adaptation to extrauterine life in pen conditions.

Implications

It should be tested whether maternal supplementation with MgSO4 reduces the mortality of twin lambs.

Keywords: blood gases, ewe production, lamb survival, magnesium sulfate, meconium score, newborn lamb behaviour, perinatal lamb mortality, sheep nutrition.

References

Akoury HA, White SE, Homan JH, Cheung VYT, Richardson BS, Bocking AD (1997) Failure of magnesium sulfate infusion to inhibit uterine activity in pregnant sheep. American Journal of Obstetrics and Gynecology 177, 185-189.
| Crossref | Google Scholar | PubMed |

Alexander G, McCance I (1958) Temperature regulation in the new-born lamb. I. Changes in rectal temperature within the first six hours of life. Australian Journal of Agricultural Research 9, 339-347.
| Crossref | Google Scholar |

Ataollahi F, Friend M, McGrath S, Dutton G, Peters A, Bhanugopan M (2018) Effect of calcium and magnesium supplementation on minerals profile, immune responses, and energy profile of ewes and their lambs. Livestock Science 217, 167-173.
| Crossref | Google Scholar |

Ataollahi F, Friend M, McGrath S, Dutton G, Peters A, Bhanugopan M (2020) Maternal supplementation of twin bearing ewes with calcium and magnesium alters immune status and weight gain of their lambs. Veterinary and Animal Science 9, 100097.
| Crossref | Google Scholar |

Barri M, Abbas SK, Pickard DW, Hammonds RG, Wood WI, Caple IW, Martin TJ, Care AD (1990) Fetal magnesium homeostasis in the sheep. Experimental Physiology 75, 681-688.
| Crossref | Google Scholar | PubMed |

Bennet L, Galinsky R, Draghi V, Lear CA, Davidson JO, Unsworth CP, Gunn AJ (2018) Time and sex dependent effects of magnesium sulphate on post-asphyxial seizures in preterm fetal sheep. The Journal of Physiology 596, 6079-6092.
| Crossref | Google Scholar | PubMed |

Bolan JC, Craft JB, Patch JH, Woolf WA, Fabro S, Lahijani J, Mazel P (1985) Pharmacokinetics of magnesium sulfate in the sheep model. Pediatric Pharmacology 5, 189-199.
| Google Scholar | PubMed |

Brougham B-J, Weaver AC, Swinbourne AMF, Baida BE, Kelly JM, Walker SK, Kleemann DO, van Wettere WHEJ (2020) Maternal supplementation with dietary betaine during gestation to improve twin lamb survival. Animals 10, 1749.
| Crossref | Google Scholar | PubMed |

Brown GH (1988) The statistical comparison of reproduction rates for groups of sheep. Australian Journal of Agricultural Research 39, 899.
| Crossref | Google Scholar |

Chester-Jones H, Fontenot JP, Veit HP, Webb KE, Jr (1989) Physiological effects of feeding high levels of Magnesium to sheep. Journal of Animal Science 67, 1070-1081.
| Crossref | Google Scholar | PubMed |

Darwish RA, El-Bahr SM (2008) Neonatal lamb behaviour and thermoregulation with special reference to thyroid hormones and phosphorous element: effect of birth weight and litter size. Journal of Veterinary Medical Research 18, 120-127.
| Crossref | Google Scholar |

Dutra F (2007) A new perspective in perinatal lamb mortality. Archivos Latinoamericanos de Producción Animal 15(5), 288-289 Available at https://ojs.alpa.uy/index.php/ojs_files/article/view/2750.
| Google Scholar |

Dutra F, Banchero G (2011) Polwarth and texel ewe parturition duration and its association with lamb birth asphyxia. Journal of Animal Science 89, 3069-3078.
| Crossref | Google Scholar | PubMed |

Dwyer CM, Lawrence AB (2005) Frequency and cost of human intervention at lambing: an interbreed comparison. Veterinary Record 157, 101-104.
| Crossref | Google Scholar | PubMed |

Dwyer CM, Morgan CA (2006) Maintenance of body temperature in the neonatal lamb: effects of breed, birth weight, and litter size. Journal of Animal Science 84, 1093-1101.
| Crossref | Google Scholar | PubMed |

Dwyer CM, Lawrence AB, Brown HE, Simm G (1996) Effect of ewe and lamb genotype on gestation length, lambing ease and neonatal behaviour of lambs. Reproduction, Fertility and Development 8, 1123-1129.
| Crossref | Google Scholar | PubMed |

Fahmy MH, Robert S, Castonguay F (1997) Ewe and lamb behaviour at parturition in prolific and non-prolific sheep. Canadian Journal of Animal Science 77, 9-15 10.4141/A96-014.
| Google Scholar |

Flinn T, Gunn JR, Kind KL, Swinbourne AM, Weaver AC, Kelly JM, Walker SK, Gatford KL, van Wettere WHEJ, Kleemann DO (2020a) Maternal melatonin implants improve twin Merino lamb survival. Journal of Animal Science 98, skaa344.
| Crossref | Google Scholar |

Flinn T, Kleemann DO, Swinbourne AM, Kelly JM, Weaver AC, Walker SK, Gatford KL, Kind KL, van Wettere WHEJ (2020b) Neonatal lamb mortality: major risk factors and the potential ameliorative role of melatonin. Journal of Animal Science and Biotechnology 11, 107.
| Crossref | Google Scholar |

Fogarty NM, Hopkins DL, van de Ven R (2000) Lamb production from diverse genotypes. 1. Lamb growth and survival and ewe performance. Animal Science 70, 135-145.
| Crossref | Google Scholar |

Fomin VP, Gibbs SG, Vanam R, Morimiya A, Hurd WW (2006) Effect of magnesium sulfate on contractile force and intracellular calcium concentration in pregnant human myometrium. American Journal of Obstetrics and Gynecology 194, 1384-1390.
| Crossref | Google Scholar | PubMed |

Galinsky R, Davidson JO, Drury PP, Wassink G, Lear CA, van den Heuij LG, Gunn AJ, Bennet L (2016) Magnesium sulphate and cardiovascular and cerebrovascular adaptations to asphyxia in preterm fetal sheep. The Journal of Physiology 594, 1281-1293.
| Crossref | Google Scholar | PubMed |

Galinsky R, Draghi V, Wassink G, Davidson JO, Drury PP, Lear CA, Gunn AJ, Bennet L (2017) Magnesium sulfate reduces EEG activity but is not neuroprotective after asphyxia in preterm fetal sheep. Journal of Cerebral Blood Flow & Metabolism 37, 1362-1373.
| Crossref | Google Scholar | PubMed |

Galinsky R, Dean JM, Lingam I, Robertson NJ, Mallard C, Bennet L, Gunn AJ (2020) A systematic review of magnesium sulfate for perinatal neuroprotection: what have we learnt from the past decade? Frontiers in Neurology 11, 449.
| Crossref | Google Scholar |

Galinsky R, Dhillon SK, Kelly SB, Wassink G, Davidson JO, Lear CA, van den Heuij LG, Bennet L, Gunn AJ (2023) Magnesium sulphate reduces tertiary gliosis but does not improve EEG recovery or white or grey matter cell survival after asphyxia in preterm fetal sheep. The Journal of Physiology 601, 1999-2016.
| Crossref | Google Scholar | PubMed |

Greenwood PL, Hunt AS, Bell AW (2004) Effects of birth weight and postnatal nutrition on neonatal sheep: IV. Organ growth. Journal of Animal Science 82, 422-428.
| Crossref | Google Scholar | PubMed |

Hallak M, Berman RF, Irtenkauf SM, Evans MI, Cotton DB (1992) Peripheral magnesium sulfate enters the brain and increases the threshold for hippocampal seizures in rats. American Journal of Obstetrics and Gynecology 167, 1605-1610.
| Crossref | Google Scholar | PubMed |

Harbert GM, Jr, Cornell GW, Thornton WN, Jr (1969) Effect of toxemia therapy on uterine dynamics. American Journal of Obstetrics and Gynecology 105, 94-103.
| Crossref | Google Scholar | PubMed |

Hinch GN, Brien F (2014) Lamb survival in Australian flocks: a review. Animal Production Science 54, 656-666.
| Crossref | Google Scholar |

Idama TO, Lidow SW (1998) Magnesium sulphate: a review of clinical pharmacology applied to obstetrics. BJOG: British Journal of Obstetrics & Gynaecology 105, 260-268.
| Crossref | Google Scholar | PubMed |

Lang U, Baker RS, Braems G, Zygmunt M, Künzel W, Clark KE (2003) Uterine blood flow – a determinant of fetal growth. European Journal of Obstetrics & Gynecology and Reproductive Biology 110, S55-S61.
| Crossref | Google Scholar |

Linsay DR, Nowak R, Gede Putu I, McNiell D (1990) Behavioural interactions between the ewe and her young at parturition: a vital step for the lamb. In ‘Reproductive physiology of merino sheep: concepts and consequences’. (Eds CM Olham, GB Martin, IW Purvis) pp. 191–206. (University of Western Australia: Perth)

Maged AM, Hashem AMT, Gad Allah SH, Mahy ME, Mostafa WAI, Kotb A (2016) The effect of loading dose of magnesium sulfate on uterine, umbilical, and fetal middle cerebral arteries Doppler in women with severe preeclampsia: a case control study. Hypertension in Pregnancy 35, 91-99.
| Crossref | Google Scholar | PubMed |

Mallard EC, Gunn AJ, Williams CE, Johnston BM, Gluckman PD (1992) Transient umbilical cord occlusion causes hippocampal damage in the fetal sheep. American Journal of Obstetrics and Gynecology 167, 1423-1430.
| Crossref | Google Scholar | PubMed |

Marret S, Doyle LW, Crowther CA, Middleton P (2007) Antenatal magnesium sulphate neuroprotection in the preterm infant. Seminars in Fetal and Neonatal Medicine 12, 311-317.
| Crossref | Google Scholar | PubMed |

Matheson SM, Rooke JA, McIlvaney K, Jack M, Ison S, Bünger L, Dwyer CM (2011) Development and validation of on-farm behavioural scoring systems to assess birth assistance and lamb vigour. Animal 5, 776-783.
| Crossref | Google Scholar | PubMed |

National Research Council (2005) ‘Mineral tolerance of animals: second revised edition, 2005.’ (The National Academies Press: Washington, DC). doi:10.17226/11309

Norwitz ER, Robinson J, Challis JRG (1999) The control of labor. The New England Journal of Medicine 341(9), 660-666.
| Crossref | Google Scholar |

Plush KJ, Staveley LM, Weaver AC, van Wettere WHEJ (2015) Inclusion of MgSO4 in the diet of sows before farrowing improves measures of piglet colostrum ingestion. Animal Production Science 55, 1476.
| Crossref | Google Scholar |

Plush K, Brien F, van Wettere W, Hynd P (2016) Preparing the neonate for the transition from intra-uterine to extra-uterine life. In ‘Proceedings of the 31st biennial conference of the Australian Society of Animal Production ref. no. 1415’. Available at https://www.researchgate.net/publication/306262528

Rattray PV, Garrett WN, East NE, Hinman N (1974) Growth, development and composition of the ovine conceptus and mammary gland during pregnancy. Journal of Animal Science 38(3), 613-626.
| Crossref | Google Scholar |

Refshauge G, Brien FD, Hinch GN, Van De Ven R (2016) Neonatal lamb mortality: factors associated with the death of Australian lambs. Animal Production Science 56, 726-735.
| Crossref | Google Scholar |

Robertson SM, McGrath SR, Scarlett S, Bhanugopan M, Hocking Edwards JE, Winslow E, Hancock S, Thompson AN, Refshauge G, Friend MA (2022) Calcium and magnesium supplementation of ewes grazing pasture did not improve lamb survival. Animal Production Science 62, 1766-1776.
| Crossref | Google Scholar |

Viñoles C, Gonzalez de Bulnes A, Martin GB, Sales F, Sale S (2010) Sheep and goats. In ‘Atlas of ruminant and camelid reproductive ultrasonography’. (Eds L DesCôteaux, J Colloton, G Gnemmi) pp. 181–210. (Wiley-Blackwell: Ames)