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17 Μαΐ 2023 · In this chapter, we review calcium and phosphate homeostasis including the critical organs involved (skeleton, parathyroids, GI tract, kidneys etc.) as well as the hormones (PTH, vitamin D, FGF23, calcitonin) that regulate calcium and phosphate.
The regulation of calcium and phosphate results from the interactions of three hormones: parathyroid hormone, calcitonin, and vitamin D. This section will examine the roles of these hormones at the level of the bone, kidneys, and intestines in situations of calcium/phosphate deprivation and loading.
1 Ιαν 2014 · Interplay Among Organ Systems Regulates Calcium and Phosphorus Metabolism. Mineral homeostasis involves complex interactions between organ systems, primarily the skeleton, intestine, and kidneys.
It is not surprising that phosphorus and calcium metabolism are closely linked, since they share regulatory factors such as Vitamin D (1,25- (OH 2)D) and PTH. Furthermore, both minerals represent the main components of bone mass, hydroxyapatite; therefore, a chronic imbalance in dietary calcium and phosphorus intake leads to bone loss [9].
1 Ιαν 2012 · Regulation of Calcium and Phosphate Metabolism. Chapter. First Online: 01 January 2012. pp 13–51. Cite this chapter. Download book PDF. Download book EPUB. Diseases of the Parathyroid Glands. Arthur D. Conigrave MD, PhD, FRACP. 1612 Accesses. 2 Citations. Abstract.
The metabolic homeostasis of calcium, phosphorus, and magnesium and mineralization of the skeleton are complex functions that require the intervention of various parameters; an adequate supply of nutrients; the development of the intestinal absorption process; and the effects of several hormones, such as parathyroid hormone, vitamin D, and calci...
17 Μαΐ 2023 · In this chapter, we review calcium and phosphate homeostasis including the critical organs involved (skeleton, parathyroids, GI tract, kidneys etc.) as well as the hormones (PTH, vitamin D, FGF23, calcitonin) that regulate calcium and phosphate.
