X-linked hypophosphatemia: effect of calcitriol on renal handling of phosphate, serum phosphate, and bone mineralization

T Costa, PJ Marie, CR Scriver… - The Journal of …, 1981 - academic.oup.com
T Costa, PJ Marie, CR Scriver, DEC COLE, TM Reade, B Nogrady, FH Glorieux, EE Delvin
The Journal of Clinical Endocrinology & Metabolism, 1981academic.oup.com
Eleven patients with the Mendelian phenotype of x-linked hypophosphatemia (XLH) were
treated with calcitriol [1, 25-(OH) 23] and phosphate. Ten patients had received prior
treatment with ergocalciferol and phosphate. Five subjects were prepubertal and six were
postpubertal. Response to calcitriol was measured under nonfasting and overnight fasting
protocols. Bone biopsies were obtained before and after treatment. Calcitriol (mean dose, 30
ng/kg-day) 1) raised serum phosphorus uniformly in prepubertal patients but in only two of …
Abstract
Eleven patients with the Mendelian phenotype of x-linked hypophosphatemia (XLH) were treated with calcitriol [1,25-(OH)23] and phosphate. Ten patients had received prior treatment with ergocalciferol and phosphate. Five subjects were prepubertal and six were postpubertal. Response to calcitriol was measured under nonfasting and overnight fasting protocols. Bone biopsies were obtained before and after treatment. Calcitriol (mean dose, 30 ng/kg-day) 1) raised serum phosphorus uniformly in prepubertal patients but in only two of six postpubertal subjects; 2) did not change the theoretical renal phosphate threshold in the total patient group and thus had no effect on the primary transport defect in XLH; 3) improved trabecular bone mineralization in the total patient group, as determined by bone histomorphometry. The beneficial effect on extracellular phosphorus homeostasis was attributed to improved intestinal absorption of phosphorus; improvement in bone mineralization may reflect an additional effect of 1,25-(OH)2D3 on bone itself in XLH. Mild transient hypercalcemia occurred during 0.6% of 3545 treatment days and was readily controlled by adjusting the dosage of 1,25-(OH)2D3.
Oxford University Press