Bone Development and Mineral Homeostasis in the Fetus and Neonate: Roles of the Calciotropic and Phosphotropic Hormones

Kovacs, Christopher S.

doi:10.1152/physrev.00014.2014

Cited by 211 publications

(216 citation statements)

References 707 publications

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“…However, the first-trimester rise in intestinal calcium absorption precedes the more marked increase in calcitriol and free calcitriol during the third trimester, which may indicate that the early increase is not wholly driven by calcitriol. Moreover, the extremes of severe vitamin D deficiency or genetic disorders of vitamin D physiology in the mother do not alter serum calcium, ionized calcium, phosphorus, PTH, or skeletal mineral content of the baby, as detailed in the companion review (492). These normal fetal parameters imply that maternal delivery of mineral is normal, or that the placenta is capable of extracting needed mineral regardless of a deficit in the maternal supply.…”

Section: Human Datamentioning

confidence: 99%

“…Also considered are the impacts that these adaptations have on normal biochemical and hormonal parameters of mineral homeostasis, the presentation and management of preexisting disorders of mineral and bone homeostasis, and long-term skeletal health of women. This paper is a companion to a recent review of fetal and neonatal mineral and skeletal homeostasis (492), which may be consulted for additional details and references that are pertinent to mineral and bone homeostasis of the offspring. This paper is also a substantial update and rethinking on the topic since the previous review in 1997 (499).…”

Section: Introductionmentioning

confidence: 99%

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Maternal Mineral and Bone Metabolism During Pregnancy, Lactation, and Post-Weaning Recovery

Kovacs

2016

Physiological Reviews

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During pregnancy and lactation, female physiology adapts to meet the added nutritional demands of fetuses and neonates. An average full-term fetus contains ϳ30 g calcium, 20 g phosphorus, and 0.8 g magnesium. About 80% of mineral is accreted during the third trimester; calcium transfers at 300-350 mg/day during the final 6 wk. The neonate requires 200 mg calcium daily from milk during the first 6 mo, and 120 mg calcium from milk during the second 6 mo (additional calcium comes from solid foods). Calcium transfers can be more than double and triple these values, respectively, in women who nurse twins and triplets. About 25% of dietary calcium is normally absorbed in healthy adults. Average maternal calcium intakes in American and Canadian women are insufficient to meet the fetal and neonatal calcium requirements if normal efficiency of intestinal calcium absorption is relied upon. However, several adaptations are invoked to meet the fetal and neonatal demands for mineral without requiring increased intakes by the mother. During pregnancy the efficiency of intestinal calcium absorption doubles, whereas during lactation the maternal skeleton is resorbed to provide calcium for milk. This review addresses our current knowledge regarding maternal adaptations in mineral and skeletal homeostasis that occur during pregnancy, lactation, and post-weaning recovery. Also considered are the impacts that these adaptations have on biochemical and hormonal parameters of mineral homeostasis, the consequences for long-term skeletal health, and the presentation and management of disorders of mineral and bone metabolism.

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Section: Human Datamentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Maternal Mineral and Bone Metabolism During Pregnancy, Lactation, and Post-Weaning Recovery

Kovacs

2016

Physiological Reviews

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382

524

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“…Phosphorus is maintained in the fetal circulation at higher concentrations than in the mother, and such high levels appear necessary for the developing skeleton to accrete a normal amount of phosphorus by term. However, the factors and the molecular mechanism controlling placental phosphorus transport have not yet been explored (Mitchell and Jüppner, 2010;Kovacs, 2014). Phosphorus rises over the first 24-48 hours after delivery; after that, it declines towards adult values, consistent with resolution of transient hypoparathyroidism in the newborn (Kovacs, 2014).…”

Section: Distribution To Tissuesmentioning

confidence: 99%

Scientific Opinion on Dietary Reference Values for phosphorus

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2015

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Following a request from the European Commission, the Panel on Dietetic Products, Nutrition and Allergies derived Dietary Reference Values (DRVs) for phosphorus. The Panel considered data from balance studies, losses of phosphorus from the body and intestinal absorption for possible use in a factorial approach, and studies on phosphorus intake and long-term health outcomes. The Panel concluded that these data were insufficient for setting DRVs for phosphorus. Data on the calcium to phosphorus ratio in bones of healthy adults, adjusted for the proportion of phosphorus found outside bone, and data on whole-body calcium and phosphorus contents in Caucasian adults indicate that the calcium to phosphorus molar ratio in the body ranges from 1.4:1 to 1.9:1. Although the fractional absorption of phosphorus is higher than that of calcium, the Panel considered that the actual amounts of calcium and phosphorus that are available for absorption from the diet cannot be determined; therefore, the whole-body calcium to phosphorus ratio was used to set DRVs. The data were considered insufficient to derive Average Requirements and Population Reference Intakes. Based on the DRVs for calcium and considering a molar calcium to phosphorus ratio of 1.4:1 to 1.9:1, amounts of phosphorus were calculated. The Panel chose the lower bound of this range (a ratio of 1.4:1, which results in a higher phosphorus intake value) for setting an Adequate Intake (AI), taking into account estimated phosphorus intakes in Western countries, which are considerably higher than the values calculated. The AI is 160 mg/day for infants (7-11 months) and between 250 and 640 mg/day for children. For adults, the AI is 550 mg/day. Taking into consideration adaptive changes in phosphorus metabolism that occur during pregnancy and lactation, it was considered that the AI for adults also applies to pregnant and lactating women. Phosphorus is involved in many physiological processes, such as in the cell's energy cycle, in regulation of the body's acid-base balance, as a component of the cell structure, in cell regulation and signalling, and in the mineralisation of bones and teeth. About 85 % of the body's phosphorus is in bones and teeth, 14 % is in soft tissues, including muscle, liver, heart and kidney, and only 1 % is present in extracellular fluids. Phosphorus homeostasis is intricately linked to that of calcium because of the actions of calcium-regulating hormones, such as parathyroid hormone (PTH) and 1,25-dihydroxy-vitamin D (1,25(OH) 2 D), at the level of the bone, the gut and the kidneys. © EuropeanPhosphorus absorption occurs through passive diffusion and sodium-dependent active transport and via paracellular and cellular pathways. In adults, limited data suggest that net phosphorus absorption ranges from 55 to 80 % of intake. Phosphorus absorption is affected by the total amount of phosphorus in the diet and also by the type of phosphorus (organic versus inorganic), the food origin (animalversus plant-derived) and the ratio of phosphorus to oth...

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“…This seems surprising for various reasons. The prenatal period is not only a highly sensitive period for early brain development (99), but also for other biological systems that develop in utero, including the innate and adaptive immune systems (47,70), the cardiovascular system (46,60), the renal system (55,80), adipose tissue (140), and skeletal bones and muscles (20,68). It is, in fact, rather unlikely that maternal infection during pregnancy would specifically disrupt fetal brain development; instead, it may more generally represent a developmental stressor for the entire organism.…”

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confidence: 99%

Long-term pathological consequences of prenatal infection: beyond brain disorders

Labouesse

Langhans

Meyer

2015

American Journal of Physiology-Regulatory, Integrative and Comp

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Bone Development and Mineral Homeostasis in the Fetus and Neonate: Roles of the Calciotropic and Phosphotropic Hormones

Cited by 211 publications

References 707 publications

Maternal Mineral and Bone Metabolism During Pregnancy, Lactation, and Post-Weaning Recovery

Maternal Mineral and Bone Metabolism During Pregnancy, Lactation, and Post-Weaning Recovery

Scientific Opinion on Dietary Reference Values for phosphorus

Long-term pathological consequences of prenatal infection: beyond brain disorders

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