OBJECTIVE: Conventional treatment of familial hypophosphaiaemic rickets with oral phosphate and 1 alpha-hydroxycholecalciferol (1 alpha HCC) does not satisfactorily correct the metabolic or physical defects of the disease and can have adverse effects, such as nephrocalcinosis. Hyperoxaluria from increased oral phosphate intake may contribute to nephrocalcinosis. Growth hormone enhances renal tubular phosphate reabsorption and 1,25-dihydroxy-cholecalciferol production in normal and in GH deficient individuals, and may thus be of benefit to patients with familial hypophosphataemic rickets. PATIENTS: We have assessed the acute effects of GH on phosphate and calcium metabolism in 6 children (age 4-14 years) with familial hypophosphataemic rickets. DESIGN: Each patient served as his/her own control and received the following in a sequential non-randomized design: conventional treatment with oral phosphate 1.0-3.4 mmol/kg/day in 3-6 divided doses and 1 alpha HCC 18-31 ng/kg/day-no treatment-GH 0.05 mg/kg daily-GH and 1 alpha HCC-and GH with phosphate and 1 alpha HCC. Each treatment was given for 7 days with 7 day periods of no treatment in between. MEASUREMENTS AND RESULTS: Glomerular filtration rate, tubular maximum rate of phosphate reabsorption per litre of glomerular filtrate (TmP/GFR) and serum 1,25-dihydroxycholecalciferol increased with GH. Mean 24-hour plasma phosphate concentrations did not increase with GH but were higher in the treatment phases which included phosphate and 1 alpha HCC (P = 0.002). Serum PTH was higher when GH was given in combination with phosphate and 1 alpha HCC compared to other phases. Urine oxalate excretion did not differ between the treatment phases. CONCLUSIONS: GH seemed to partially correct the defects in renal tubular phosphate transport and 1 alpha-hydroxylation of 25-hydroxycholecalciferol. We speculate that the net effect of GH treatment was an increase in body phosphate, although this was not reflected in a change in plasma phosphate. Therefore, GH in combination with 1 alpha HCC may act as a phosphate sparing agent, permitting treatment with lower and less frequent doses of oral phosphate and reducing adverse effects such as nephrocalcinosis.
OBJECTIVE: Conventional treatment of familial hypophosphaiaemic rickets with oral phosphate and 1 alpha-hydroxycholecalciferol (1 alpha HCC) does not satisfactorily correct the metabolic or physical defects of the disease and can have adverse effects, such as nephrocalcinosis. Hyperoxaluria from increased oral phosphate intake may contribute to nephrocalcinosis. Growth hormone enhances renal tubularphosphate reabsorption and 1,25-dihydroxy-cholecalciferol production in normal and in GH deficient individuals, and may thus be of benefit to patients with familial hypophosphataemic rickets. PATIENTS: We have assessed the acute effects of GH on phosphate and calcium metabolism in 6 children (age 4-14 years) with familial hypophosphataemic rickets. DESIGN: Each patient served as his/her own control and received the following in a sequential non-randomized design: conventional treatment with oral phosphate 1.0-3.4 mmol/kg/day in 3-6 divided doses and 1 alpha HCC 18-31 ng/kg/day-no treatment-GH 0.05 mg/kg daily-GH and 1 alpha HCC-and GH with phosphate and 1 alpha HCC. Each treatment was given for 7 days with 7 day periods of no treatment in between. MEASUREMENTS AND RESULTS: Glomerular filtration rate, tubular maximum rate of phosphate reabsorption per litre of glomerular filtrate (TmP/GFR) and serum 1,25-dihydroxycholecalciferol increased with GH. Mean 24-hour plasma phosphate concentrations did not increase with GH but were higher in the treatment phases which included phosphate and 1 alpha HCC (P = 0.002). Serum PTH was higher when GH was given in combination with phosphate and 1 alpha HCC compared to other phases. Urine oxalate excretion did not differ between the treatment phases. CONCLUSIONS: GH seemed to partially correct the defects in renal tubularphosphate transport and 1 alpha-hydroxylation of 25-hydroxycholecalciferol. We speculate that the net effect of GH treatment was an increase in body phosphate, although this was not reflected in a change in plasma phosphate. Therefore, GH in combination with 1 alpha HCC may act as a phosphate sparing agent, permitting treatment with lower and less frequent doses of oral phosphate and reducing adverse effects such as nephrocalcinosis.
Authors: Thomas O Carpenter; Erik A Imel; Ingrid A Holm; Suzanne M Jan de Beur; Karl L Insogna Journal: J Bone Miner Res Date: 2011-05-02 Impact factor: 6.741