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The influence of maternal nutrient restriction in early to mid-pregnancy on placental and fetal development in sheep

Published online by Cambridge University Press:  28 February 2007

L. Heasman ,
L. Clarke ,
T. J. Stephenson  and
M. E. Symonds
L. Heasman*
Affiliation:
Academic Division of Child Health, School of Human Development, University Hospital, Queen's Medical Centre, Nottingham NG7 2UH, UK
L. Clarke
Affiliation:
Academic Division of Child Health, School of Human Development, University Hospital, Queen's Medical Centre, Nottingham NG7 2UH, UK
T. J. Stephenson
Affiliation:
Academic Division of Child Health, School of Human Development, University Hospital, Queen's Medical Centre, Nottingham NG7 2UH, UK
M. E. Symonds
Affiliation:
Academic Division of Child Health, School of Human Development, University Hospital, Queen's Medical Centre, Nottingham NG7 2UH, UK
*
*Corresponding author: Lindsay Heasman, present address ADAS High Mowthorpe, Duggleby, Malton, North Yorkshire YO17 8BP, UK, fax +44 (0)1944 738434, email [email protected]
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Abstract

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Placental weight is a primary factor determining size at birth in many species. In sheep, placental weight peaks at approximately mid-gestation, with structural remodelling occurring over the second half of pregnancy to meet the increasing nutritional demands of the growing fetus. Numerous factors influence placental growth and development in sheep, and many workers (see Kelly, 1992) have investigated the role of maternal nutrition as a regulator of placental and fetal size. We have studied the effects of feeding ewes approximately 50 % of their recommended energy requirements during early to mid-pregnancy on fetal and placental indices measured at mid-gestation (i.e. 80 d) and close to term (i.e. 145 d). Maternal nutrient restriction is associated with a reduction in placental weight at 80 d, but an increase in placental weight at 145 d of gestation, compared with ewes fed adequately in early pregnancy. No significant effect on fetal weight was observed at either 80 or 145 d gestation, although differences in body dimensions and the insulin-like growth factor-1 axis were found in lambs from nutrient-restricted ewes delivered close to term. Maternal nutrition during pregnancy plays a pivotal role in the regulation of fetal and placental development in sheep, and therefore has the potential to influence both short- and longer-term health outcomes.

Keywords

Maternal nutritionPlacentaFetusAdults
Type
Postgraduate Symposium
Information
Proceedings of the Nutrition Society , Volume 58 , Issue 2 , May 1999 , pp. 283 - 288
Copyright
Copyright © The Nutrition Society 1999

Footnotes

School of Biological Sciences, Bourne Building, Royal Holloway and Bedford College, University of London, Egham, Surrey, TW20 0EX, UK

References

Agricultural Research Council (1980) The Nutrient Requirements of Ruminant Livestock, pp. 115119. Slough, Berks: Commonwealth Agricultural Bureaux.Google Scholar
Barker, DJP (1994) Mothers, Babies and Disease in Later Life. London: BMJ Publishing Group.Google Scholar
Barker, DJP, Bull, AR, Osmond, C & Simmonds, SJ (1990) Fetal and placental size and risk of hypertension in adult life. British Medical Journal 301, 259262.CrossRefGoogle ScholarPubMed
Bird, JA, Spencer, JAD, Mould, T & Symonds, ME (1996) Endocrine and metabolic adaptation following caesarean section or vaginal delivery. Archives of Disease in Childhood 74, F132F134.CrossRefGoogle ScholarPubMed
Clarke, L, Darby, CJ, Lomax, MA & Symonds, ME (1994) Effect of ambient temperature during 1st day of life on thermoregulation in lambs delivered by cesarean section. Journal of Applied Physiology 76, 14811488.CrossRefGoogle ScholarPubMed
Clarke, L, Heasman, L, Juniper, DT & Symonds, ME (1998) Maternal nutrition in early-mid gestation and placental size in sheep. British Journal of Nutrition 79, 359364.CrossRefGoogle ScholarPubMed
Davis, SR, Rattray, PV, Petch, ME & Duganzich, DM (1981) Interrelationships of placental development with nutrition in pregnancy and lamb birth weight. Proceedings of the New Zealand Society of Animal Production 41, 218223.Google Scholar
Everitt, GC (1964) Maternal under-nutrition and retarded foetal development in Merino sheep. Nature 201, 13411342.CrossRefGoogle Scholar
Faichney, GJ & White, GA (1987) Effects of maternal nutritional status on fetal and placental growth and on fetal urea synthesis in sheep. Australian Journal of Biological Science 40, 365377.CrossRefGoogle ScholarPubMed
Gardner, DS, Jackson, AA & Langley-Evans, SC (1998) The effect of prenatal diet and glucocorticoids on growth and systolic blood pressure in the rat. Proceedings of the Nutrition Society 57, 235240.CrossRefGoogle ScholarPubMed
Heasman, L, Clarke, L, Dandrea, J, Stephenson, T & Symonds, ME (1998 a) Influence of fetal number on placental mass and lamb conformation at term in sheep. Contemporary Reviews in Obstetrics and Gynaecology (In the Press).Google Scholar
Heasman, L, Clarke, L, Firth, K, Stephenson, T & Symonds, ME (1998 b) Influence of restricted maternal nutrition in early to mid gestation on placental and fetal development at term in sheep. Pediatric Research 44, 546551.CrossRefGoogle ScholarPubMed
Heasman, L, Stephenson, T & Symonds, ME (1998 c) Impact of maternal nutrient restriction in early to mid gestation on lamb size and insulin-like growth factor-1 (IGF-1) status at term. Proceedings of the Nutrition Society 57, 124A.Google Scholar
Holst, PJ, Allan, CJ & Gilmour, AR (1992) Effects of a restricted diet during mid pregnancy of ewes on uterine and fetal growth and lamb birth weight. Australian Journal of Agricultural Research 43, 315324.CrossRefGoogle Scholar
Kelly, RW (1992) Nutrition and placental development. Proceedings of the Nutrition Society of Australia 17, 203211.Google Scholar
Kelly, RW, Macleod, I, Hynd, P & Greeff, J (1996) Nutrition during fetal life alters annual wool production and quality in young Merino sheep. Australian Journal of Experimental Agriculture 36, 259267.CrossRefGoogle Scholar
Kelly, RW & Ralph, IG (1988) Lamb and wool production from ewes fed differentially during pregnancy. Proceedings of the Australian Society of Animal Production 17, 218221.Google Scholar
Kelly, RW, Speijers, EJ, Ralph, IG & Newnham, JP (1992) Lambing performances and wool production of maiden and adult Merino ewes fed different amounts of lupin seed in mid-pregnancy. Australian Journal of Agricultural Research 43, 339354.CrossRefGoogle Scholar
Kleemann, DO, Walker, SK, Walkley, JRW, Ponzoni, RW, Smith, DH, Grimson, RJ & Seamark, RF (1993) Effect of nutrition during pregnancy on fetal growth and survival in FECB Booroola x South Australian Merino ewes. Theriogenology 39, 623630.CrossRefGoogle ScholarPubMed
Langley-Evans, SC, Gardner, DS & Jackson, AA (1996) Maternal protein restriction influences the programming of the rat hypothalamic-pituitary-adrenal axis. Journal of Nutrition 126, 15781585.CrossRefGoogle ScholarPubMed
Lok, F, Owens, JA, Mundy, L, Robinson, JS & Owens, PC (1996) Insulin-like growth factor 1 promotes growth selectively in fetal sheep in late gestation. American Journal of Physiology 270, R1148R1155.Google ScholarPubMed
Lumey, LH (1992) Decreased birthweights in infants after maternal in utero exposure to the Dutch famine of 1944–1945. Paediatric and Perinatal Epidemiology 6, 240253.CrossRefGoogle Scholar
Lumey, LH (1998) Compensatory placental growth after restricted maternal nutrition in early pregnancy. Placenta 19, 105111.Google ScholarPubMed
McCrabb, GJ, Egan, AR & Hosking, BJ (1991) Maternal under-nutrition during mid-pregnancy in sheep. Placental size and its relationship to calcium transfer during late pregnancy. British Journal of Nutrition 65, 157168.CrossRefGoogle Scholar
McCrabb, GJ, Egan, AR & Hosking, BJ (1992 a) Maternal under-nutrition during mid-pregnancy in sheep: variable effects on placental growth. Journal of Agricultural Science 118, 127132.CrossRefGoogle Scholar
McCrabb, GJ, Hosking, BJ & Egan, AR (1992 b) Changes in the maternal body and feto-placental growth following various lengths of feed restriction during mid-pregnancy in sheep. Australian Journal of Agricultural Research 43, 14291440.CrossRefGoogle Scholar
Mellor, DJ & Murray, L (1982) Effects of long term undernutrition of the ewe on the growth rates of individual fetuses during late pregnancy. Research in Veterinary Science 32, 177180.CrossRefGoogle ScholarPubMed
Naeye, RL (1987) Do placental weights have clinical significance? Human Pathology 18, 387391.CrossRefGoogle ScholarPubMed
Ozanne, SE, Nave, BT, Wang, CL, Shepherd, PR, Prins, J & Smith, GD (1997) Poor fetal nutrition causes long-term changes in expression of insulin signalling components in adipocytes. American Journal of Physiology 273, E46E51.Google ScholarPubMed
Rattray, PV & Trigg, TE (1979) Minimal feeding of pregnant ewes Proceedings of the New Zealand Society of Animal Production 39, 242250.Google Scholar
Robinson, JS, Kingston, EJ, Jones, CT & Thorburn, GD (1979) Studies on experimental growth retardation in sheep. The effect of removal of endometrial caruncles on fetal size and metabolism. Journal of Developmental Physiology 1, 379398.Google ScholarPubMed
Robinson, JS, Owens, JA, De Barro, T, Lok, F & Chidzanja, S (1994) Maternal nutrition and fetal growth. In Early Fetal Growth and Development, pp. 317329 [Ward, RHT, Smith, SK and Donnai, D, editors]. London: RCOG Press.Google Scholar
Schneider, H (1996) Ontogenic changes in the nutritive function of the placenta. Placenta 17, 1526.CrossRefGoogle ScholarPubMed
Symonds, ME, Heasman, L, Clarke, L, Firth, K & Stephenson, T (1998) Maternal nutrition and disproportionate placental to fetal growth. Biochemical Society Transactions 26, 9196.CrossRefGoogle ScholarPubMed
Vatnick, I, Schoknecht, PA, Darrigrand, R & Bell, AW (1991) Growth and metabolism of the placenta after unilateral fetectomy in twin pregnant ewes. Journal of Developmental Physiology 15, 351356.Google ScholarPubMed
Walton, A & Hammond, J (1938) The maternal effects on growth and conformation in Shire horse-Shetland pony crosses. Proceedings of the Royal Society of London 125B, 311335.Google Scholar
Woodall, SM, Johnston, BM, Breier, BH & Gluckman, PD (1996) Chronic maternal undernutrition in the rat leads to delayed postnatal growth and elevated blood pressure of offspring. Pediatric Research 40, 438443.CrossRefGoogle ScholarPubMed