Kenyon, C.J.; Seckl, J.R.; Holmes, M.C. Prenatal dexamethasone “programmes” hypotension, but stress-induced hypertension in adult offspring. J. Endocrinol. 2008, 196, 343?52. 179. Gluckman, P.D.; Hanson, M.A. The developmental origins of the metabolic syndrome. Trends Endocrinol. Metab. 2004, 15, 183?87. 180. Armitage, J.A.; Khan, I.Y.; Taylor, P.D.; Nathanielsz, P.W.; Poston, L. Developmental programming of the metabolic syndrome by maternal nutritional imbalance: How strong is the evidence from AG-221 site experimental models in mammals? J. Physiol. 2004, 561, 355?77. 181. McMillen, I.C.; Robinson, J.S. Developmental origins of the metabolic syndrome: Prediction, plasticity, and programming. Physiol. Rev. 2005, 85, 571?33. 182. Stocker, C.J.; Arch, J.R.; Cawthorne, M.A. Fetal origins of insulin resistance and obesity. Proc. Nutr. Soc. 2005, 64, 143?51. 183. Gluckman, P.D.; Hanson, M.A.; Cooper, C.; Thornburg, K.L. Effect of in utero and early-life conditions on adult health and disease. N. Engl. J. Med. 2008, 359, 61?3. 184. Augustyniak, R.A.; Singh, K.; Zeldes, D.; Singh, M.; Rossi, N.F. Maternal protein restriction leads to hyperresponsiveness to stress and salt-sensitive hypertension in male offspring. Am. J. Physiol. Regul. Integr. Comp. Physiol. 2010, 298, 1375?382. 185. Van Abeelen, A.F.; Veenendaal, M.V.; Painter, R.C.; de Rooij, S.R.; Thangaratinam, S.; van Der Post, J.A.; Bossuyt, P.M.; Elias, S.G.; Uiterwaal, C.S.; Grobbee, D.E.; et al. The fetal origins of hypertension: A systematic review and meta-analysis of the evidence from animal experiments of maternal undernutrition. J. Hypertens. 2012, 30, 2255?267. 186. Grassi, G.; Facchetti, R.; Seravalle, G.; Cuspidi, C.; Mancia, G. Home and purchase Chaetocin ambulatory blood pressure in resistant hypertension. EuroIntervention 2013, 9, 35?1. 187. Mancia, G.; Bombelli, M.; Brambilla, G.; Facchetti, R.; Sega, R.; Toso, E.; Grassi, G. Long-term prognostic value of white coat hypertension: An insight from diagnostic use of both ambulatory and home blood pressure measurements. Hypertension 2013, 62, 168?74. 188. Martin, U.; Holder, R.; Hodgkinson, J.; McManus, R. Inter-arm blood pressure differences compared with ambulatory monitoring: A manifestation of the “white-coat” effect? Br. J. Gen. Pract. 2013, 63, 97?03. 189. R Rios, M.T.; Dominguez-Sardina, M.; Ayala, D.E.; Gomara, S.; Sineiro, E.; Pousa, L.; Callejas, P.A.; Fontao, M.J.; Fernandez, J.R.; Hermida, R.C. Prevalence and clinical characteristics of isolated-office and true resistant hypertension determined by ambulatory blood pressure monitoring. Chronobiol. Int. 2013, 30, 207?20.Nutrients 2015,190. Sung, S.H.; Cheng, H.M.; Wang, K.L.; Yu, W.C.; Chuang, S.Y.; Ting, C.T.; Lakatta, E.G.; Yin, F.C.; Chou, P.; Chen, C.H. White coat hypertension is more risky than prehypertension: Important role of arterial wave reflections. Hypertension 2013, 61, 1346?353. 191. Wight, T.N. Cell biology of arterial proteoglycans. Arteriosclerosis 1989, 9, 1?0. 192. Halper, J. Proteoglycans and diseases of soft tissues. Adv. Exp. Med. Biol. 2014, 802, 49?8. 193. Ozanne, S.E.; Hales, C.N. Early programming of glucose-insulin metabolism. Trends Endocrinol. Metab. 2002, 13, 368?73. 194. Fagundes, A.T.; Moura, E.G.; Passos, M.C.; Santos-Silva, A.P.; de Oliveira, E.; Trevenzoli, I.H.; Casimiro-Lopes, G.; Nogueira-Neto, J.F.; Lisboa, P.C. Temporal evaluation of body composition, glucose homeostasis and lipid profile of male rats programmed by maternal protein restriction during lacta.Kenyon, C.J.; Seckl, J.R.; Holmes, M.C. Prenatal dexamethasone “programmes” hypotension, but stress-induced hypertension in adult offspring. J. Endocrinol. 2008, 196, 343?52. 179. Gluckman, P.D.; Hanson, M.A. The developmental origins of the metabolic syndrome. Trends Endocrinol. Metab. 2004, 15, 183?87. 180. Armitage, J.A.; Khan, I.Y.; Taylor, P.D.; Nathanielsz, P.W.; Poston, L. Developmental programming of the metabolic syndrome by maternal nutritional imbalance: How strong is the evidence from experimental models in mammals? J. Physiol. 2004, 561, 355?77. 181. McMillen, I.C.; Robinson, J.S. Developmental origins of the metabolic syndrome: Prediction, plasticity, and programming. Physiol. Rev. 2005, 85, 571?33. 182. Stocker, C.J.; Arch, J.R.; Cawthorne, M.A. Fetal origins of insulin resistance and obesity. Proc. Nutr. Soc. 2005, 64, 143?51. 183. Gluckman, P.D.; Hanson, M.A.; Cooper, C.; Thornburg, K.L. Effect of in utero and early-life conditions on adult health and disease. N. Engl. J. Med. 2008, 359, 61?3. 184. Augustyniak, R.A.; Singh, K.; Zeldes, D.; Singh, M.; Rossi, N.F. Maternal protein restriction leads to hyperresponsiveness to stress and salt-sensitive hypertension in male offspring. Am. J. Physiol. Regul. Integr. Comp. Physiol. 2010, 298, 1375?382. 185. Van Abeelen, A.F.; Veenendaal, M.V.; Painter, R.C.; de Rooij, S.R.; Thangaratinam, S.; van Der Post, J.A.; Bossuyt, P.M.; Elias, S.G.; Uiterwaal, C.S.; Grobbee, D.E.; et al. The fetal origins of hypertension: A systematic review and meta-analysis of the evidence from animal experiments of maternal undernutrition. J. Hypertens. 2012, 30, 2255?267. 186. Grassi, G.; Facchetti, R.; Seravalle, G.; Cuspidi, C.; Mancia, G. Home and ambulatory blood pressure in resistant hypertension. EuroIntervention 2013, 9, 35?1. 187. Mancia, G.; Bombelli, M.; Brambilla, G.; Facchetti, R.; Sega, R.; Toso, E.; Grassi, G. Long-term prognostic value of white coat hypertension: An insight from diagnostic use of both ambulatory and home blood pressure measurements. Hypertension 2013, 62, 168?74. 188. Martin, U.; Holder, R.; Hodgkinson, J.; McManus, R. Inter-arm blood pressure differences compared with ambulatory monitoring: A manifestation of the “white-coat” effect? Br. J. Gen. Pract. 2013, 63, 97?03. 189. R Rios, M.T.; Dominguez-Sardina, M.; Ayala, D.E.; Gomara, S.; Sineiro, E.; Pousa, L.; Callejas, P.A.; Fontao, M.J.; Fernandez, J.R.; Hermida, R.C. Prevalence and clinical characteristics of isolated-office and true resistant hypertension determined by ambulatory blood pressure monitoring. Chronobiol. Int. 2013, 30, 207?20.Nutrients 2015,190. Sung, S.H.; Cheng, H.M.; Wang, K.L.; Yu, W.C.; Chuang, S.Y.; Ting, C.T.; Lakatta, E.G.; Yin, F.C.; Chou, P.; Chen, C.H. White coat hypertension is more risky than prehypertension: Important role of arterial wave reflections. Hypertension 2013, 61, 1346?353. 191. Wight, T.N. Cell biology of arterial proteoglycans. Arteriosclerosis 1989, 9, 1?0. 192. Halper, J. Proteoglycans and diseases of soft tissues. Adv. Exp. Med. Biol. 2014, 802, 49?8. 193. Ozanne, S.E.; Hales, C.N. Early programming of glucose-insulin metabolism. Trends Endocrinol. Metab. 2002, 13, 368?73. 194. Fagundes, A.T.; Moura, E.G.; Passos, M.C.; Santos-Silva, A.P.; de Oliveira, E.; Trevenzoli, I.H.; Casimiro-Lopes, G.; Nogueira-Neto, J.F.; Lisboa, P.C. Temporal evaluation of body composition, glucose homeostasis and lipid profile of male rats programmed by maternal protein restriction during lacta.