Maternal Glucocorticoid Treatment as a Model for Examining Foetal Gender-Specific Effects on the Bone Metabolism of Neonatal Piglets

1. Céleste C., Ionescu M., Poole A.R., Laverty S.: Repeated intraarticular injections of triamcinolone acetonide alter cartilage matrix metabolism measured by biomarkers in synovial fluid. J Orthopc Res 2005, 23, 602-610.10.1016/j.orthres.2004.10.003 Search in Google Scholar

2. Bertram C.E., Hanson M.A.: Prenatal programming of postnatal endocrine responses by glucocorticoids. Reproduction 2002, 124, 459-467.10.1530/rep.0.1240459 Search in Google Scholar

3. Bloom S.L., Sheffield J.S., McIntire D.D., Leveno K.J.: Antenatal dexamethasone and decreased birth weight. Obstet Gynecol 2001, 97, 485-490.10.1097/00006250-200104000-00001 Search in Google Scholar

4. Eastell R, Lambert H.: Diet and healthy bones. Calcif Tissue Int 2002, 70, 400-404.10.1007/s00223-001-0047-9 Search in Google Scholar

5. Ekman S., Heinegård D.: Imunohistochemical localization of matrix proteins in the femoral joint cartilage of growing commercial pigs. Vet Pathol 1992, 29, 514-520.10.1177/030098589202900605 Search in Google Scholar

6. Engle M.J., Kemnitz J.W., Rao T.J., Perelman R.H., Farrell P.M.: Effects of maternal dexamethasone therapy on fetal lung development in the rhesus monkey. Am J Perinatol 1996, 13, 399-407.10.1055/s-2007-994378 Search in Google Scholar

7. Ferretti J.L., Capozza R.F., Mondelo N., Zanchetta J.R.: Interrelationships between densitometric, geometric andmechanical properties of rat femora: inferences concerning mechanical regulation of bone modelling. J Bone Min Res 1993, 8, 395-1399.10.1002/jbmr.5650081113 Search in Google Scholar

8. Fowden A.L., Giussani D.A., Forhead A.J.: Endocrine and metabolic programming during intrauterine development. Early Human Develop 2005, 81, 723-734.10.1016/j.earlhumdev.2005.06.007 Search in Google Scholar

9. Henson F.M.D., Davies M.E., Jeffcott L.B.: Equine dyschondroplasia (Osteochondrosis) - histological findings and type VI collagen localization. Vet J 1997, 154, 53-62.10.1016/S1090-0233(05)80008-5 Search in Google Scholar

10. Holemans K., Aerts L., Van Assche F.A.: Fetal growth restriction and consequences for the offspring in animal models. J Soc Gynecol Invest 2003, 10, 392-399.10.1016/S1071-55760300134-5 Search in Google Scholar

11. Holemans K., Aertis L., Van Assche A.: Fetal growth and long-term consequences in animal models of growth retardation. Eur J Obstet Gynecol 1998, 81, 149-156.10.1016/S0301-2115(98)00180-8 Search in Google Scholar

12. Huang K-C., Lue B-H., Yen R-F., Shen C.G., Ho S-R., Tai T-Y., Yang W-S.: Plasma adiponectin levels and metabolic factors in nondiabetic adolescents. Obesity Res 2004, 12, 119-124.10.1038/oby.2004.16 Search in Google Scholar

13. Jobe A.H., Wada N., Berry L.M., Ikegami M., Ervin M.: Single and repetitive maternal glucocorticoids exposures reduce fetal growth in sheep. Am J Obstet Gynecol 1998, 178, 880-885.10.1016/S0002-9378(98)70518-6 Search in Google Scholar

14. Katta J., Jin Z., Ingham E., Fisher J.: Biotribiology of articular cartilage - a review of the recent advances. Med Eng Physiol 2008, 30, 1349-1363.10.1016/j.medengphy.2008.09.004 Search in Google Scholar

15. Klemcke H.G., McGuire W.J., Christenson R.K.: Cortisol concentration in early porcine embryos. Life Sci 1999, 64, 1307-1312.10.1016/S0024-3205(99)00065-X Search in Google Scholar

16. Laml T., Preyer O., Szulz-Lobmeyr I., Ruecklinger E., Hartmann B.W., Wagenbichler P.: Umbilical venous leptin concentration and gender in newborns. J Soc Gynecol Inves 2001, 8, 94-97.10.1177/107155760100800206 Search in Google Scholar

17. Maccari S., Darnaudery M., Morley-Fletcher S., Zuena A.R., Cinque C., Van Reeth O.: Prenatal stress and longterm consequences: implications of glucocorticoids hormones. Neurosci Biobehav Rev 2003, 27, 119-127.10.1016/S0149-7634(03)00014-9 Search in Google Scholar

18. Marshall S., Garvey W.T., Traxinger R.R.: New insights into the metabolic regulation of insulin action and insulin resistance: role of glucose and amino acids. Exp Biol J 1991, 5, 3031-3036.10.1096/fasebj.5.15.1743436 Search in Google Scholar

19. Miller S.C., Bowman B.M., Jee W.S.: Available animal models of osteopenia - small and large. Bone 1995, 17, 117S-123S.10.1016/8756-3282(95)00284-K Search in Google Scholar

20. Nagano M., Ozawa H., Suzuki H.: Prenatal dexamethasone exposure affects anxietylike behaviour and neuroendocrine systems in an age-dependent manner. Neurosci Res 2008, 60, 364-371.10.1016/j.neures.2007.12.00518243386 Search in Google Scholar

21. Nathanielsz P.W., Thornburg K.L.: Fetal programming: from gene to functional systems -an overview. J Physiol 2003, 547, 3-4.10.1111/j..2003.t01-1-00003.x Search in Google Scholar

22. Newnham J.P., Moss T.J.: Antenatal glucocorticoids and growth: single versus multiple doses in animal and human studies. Semin Neonatol 2001, 6, 285-292.10.1053/siny.2001.0064 Search in Google Scholar

23. O`Regan D., Welberg L.L.A.M., Holmes M.C., Seckl J.R.: Glucocorticoid programming of pituitary-adrenal function: mechanisms and physiological consequences. Semin Neonatol 2001, 6, 319-329.10.1053/siny.2001.0067 Search in Google Scholar

24. Silha J.V., Krsek M., Skrha J.V., Sucharda P., Nyomba B.L., Murphy L.J.: Plasma resistin, adiponectin and leptin levels in lean and obese subjects: correlations with insulin resistance. Eur J Endocrinol 2003, 149, 331-335.10.1530/eje.0.1490331 Search in Google Scholar

25. Simmons R.A., Templeton L.J., Gertz S.J.: Intrauterine growth retardation leads to the development of type 2 diabetes in the rat. Diabetes 2001, 50, 2279-2286.10.2337/diabetes.50.10.2279 Search in Google Scholar

26. Seckl J.R.: Physiologic programming of the fetus. Clin Perinatol 1998, 25, 939-964.10.1016/S0095-5108(18)30091-5 Search in Google Scholar

27. Seckl J.R.: Glucocorticoid programming of the fetus; adult phenotypes and molecular mechanisms. Mol Cell Endocrinol 2001, 185, 61-71.10.1016/S0303-7207(01)00633-5 Search in Google Scholar

28. Sève B., Ponter A.A.: Nutrient-hormone signals regulating muscle protein turnover in pigs. Proc Nutr Soc 1997, 56, 565-580.10.1079/PNS19970058 Search in Google Scholar

29. Smink J.J., Buchholz I.M., Hamers N., van Tilburg C.M., Christis C., Sakkers R.J., de Meer K., van Buul- Offers S.C., Koedam J.A.: Short-term glucocorticoid treatment of piglets causes changes in growth plate morphology and angiogenesis. OsteoArtr Cart 2003, 11, 864-871.10.1016/S1063-4584(03)00187-0 Search in Google Scholar

30. Smith N.H., Ozanne S.E.: Intrauterine origins of metabolic disease. Rev Gynaecol Perinatal Pract 2006, 6, 211-217.10.1016/j.rigapp.2006.03.002 Search in Google Scholar

31. Śliwa E., Dobrowolski P.: Perinatal programing of skeletal system. J Pre-Clin Clin Res 2007, 1, 111-117. Search in Google Scholar

32. Śliwa E., Dobrowolski P., Piersiak T.: Bone development of suckling piglets after prenatal, neonatal or perinatal treatment with dexamethasone. J Anim Physiol Anim Nutr 2010, 94, 293-306.10.1111/j.1439-0396.2008.00909.x19663986 Search in Google Scholar

33. Śliwa E., Radzki R.P., Puzio I.: Osteochondrosis and tibial dyschondroplasy in chickens, pigs and foals. Medycyna Wet 1996, 52, 156-159. Search in Google Scholar

34. Śliwa E., Tatara M.R., Nowakowski H., Pierzynowski S.G., Studziński T.: Effect of maternal dexamethsone and α-ketoglutarate administration on skeletal development during the last three weeks of prenatal life in pigs. J Matern Fetal Neonatal Med 2006, 19, 489-493.10.1080/1476705060085038116966114 Search in Google Scholar

35. Śliwa E., Kowalik S., Tatara M.R., Studziński T.: Effect of maternal administration of dexamethasone during last weeks of pregnancy on foetal skeletal system in pigs. Bull Vet Inst Pulawy 2004, 48, 449-452. Search in Google Scholar

36. Weiler H., Wang Z., Atkinson S.: Lean body mass and protein and energy utilization for growth are lower in dexamethasone-treated piglets. Biol Neonate 1997, 71, 53-59.10.1159/0002443978996658 Search in Google Scholar

37. Weiler H.A., Kovacs H., Murdock C., Adolphe J., Fitzpatrick-Wong S.: Leptin predicts bone and fat mass after accounting for the effects of diet and glucocorticoid treatment in piglets. Exp Biol Med 2002, 227, 639-644.10.1177/15353702022270081312192107 Search in Google Scholar

38. Yokota T., Oritani K., Takahashi I., Ishikawa J., Matsuyama A., Ouchi N., Kihara S., Funahashi T., Tenner A.J., Tomiyama Y., Matsuzawa Y.: Adiponectin, a new member of the family of soluble defense collagens, negatively regulates the growth of myelomonocytic progenitors and the functions of macrophages. Blood 2000, 96, 1723-1732.10.1182/blood.V96.5.1723.h8001723_1723_1732 Search in Google Scholar