Ci spiace, ma questo articolo è disponibile soltanto in inglese.

Introduction

Phosphorus is a macroelement found in the body; 85% of it is deposited in the bone as crystals of hydroxyapatite, 14% in the intracellular compartment as a component of nucleic acids, plasma membranes and involved in all cellular energetic processes, and only 1% is extracellular [1].

Of the latter, 70% is organic phosphorous and 30% is inorganic phosphorous. Inorganic phosphorous can be protein-bound, complexed with sodium, calcium, and magnesium, or circulating as mono- or di-hydrogen forms. About 800 mg of phosphorous is  introduced with the food, and the kidneys filter across the glomerulus about 90% of the daily phosphate load. The residual 10% is excreted by the gastrointestinal system.

Chronic Kidney disease (CKD) impairs phosphorus excretion due to the reduction of the skillful nephron mass. As a consequence of this, parathyroid hormone (PTH) and fibroblast growth factor 23 (FGF-23) are over-secreted from the early stages of CKD, to prevent an increase in serum phosphorous concentration [2].

Both PTH and FGF23 increase phosphorus urinary excretion but, conversely to FGF23, PTH is related to serum calcium due to the relative activation of calcium-sensing receptor (CaSR). Indeed, PTH limits calcium gastrointestinal absorption because it reduces 1,25-dihydroxy vitamin D levels. This negative feedback tray maintains serum calcium and phosphorus within normal ranges in individuals with normal kidney function. The progression of renal disease causes the failure of this equilibrium and hypocalcemia, hyperphosphatemia, and tertiary hyperparathyroidism may occur. 

La visualizzazione dell’intero documento è riservata a Soci attivi, devi essere registrato e aver eseguito la Login con utente e password.