Jorge A. Ramirez scite author profile

Intermittent calcitriol therapy is commonly used to treat secondary hyperparathyroidism in patients undergoing regular dialysis, but there is little available information about the histologic response of bone to this form of therapy. Accordingly, 14 children and adolescents with biopsy-proven secondary hyperparathyroidism were treated with intermittent oral or intraperitoneal doses of calcitriol for 12 months. Biochemical indices of mineral metabolism including serum intact PTH levels were measured monthly throughout the study, and bone biopsies were repeated at the end of treatment. Before treatment, 11 patients had osteitis fibrosa and three had mild lesions of secondary hyperparathyroidism. Histologic improvement was seen in 12 of 14 patients, and osteitis fibrosa resolved in 10 of 11 cases. Bone formation decreased in all patients during intermittent calcitriol therapy, falling from 861 +/- 380 to 150 +/- 170 microns2/mm2/day, P < 0.001. Bone formation decreased to normal in six patients, but six patients developed adynamic lesions of bone with subnormal bone formation rates. Serum PTH and alkaline phosphatase levels declined in those who developed adynamic bone, but values remained elevated in patients with normal rates of bone formation at follow-up evaluation. Neither the mean dose of calcitriol nor the average dose per kilogram body weight differed in patients with adynamic lesions. Thus, adynamic renal osteodystrophy develops in a substantial number of patients during intermittent calcitriol therapy. Although declining serum PTH and alkaline phosphatase levels suggest the development of the adynamic lesion, bone formation decreases in some patients despite persistently high serum PTH levels. Calcitriol may directly suppress osteoblastic activity in patients with secondary hyperparathyroidism when given in large doses to patients undergoing peritoneal dialysis.

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Biochemical markers of renal osteodystrophy in pediatric patients undergoing CAPD/CCPD

Salusky¹,

Ramirez²,

Oppenheim³

et al. 1994

Kidney International

188

169

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Serum intact PTH [1-84] levels were evaluated as a potential non-invasive method for the diagnosis of renal osteodystrophy in children treated with CAPD/CCPD. Sixty-eight bone biopsy samples were obtained from 55 patients, aged 13 +/- 5 (X +/- SD) years, undergoing CAPD/CCPD for 29 +/- 13 months; osteitis fibrosa was present in 34 cases, mild lesions of secondary hyperparathyroidism in six, 15 had adynamic lesions, and 13 were classified as normal histology. Serum calcium levels were higher in patients with adynamic bone or normal bone histology than in those with secondary hyperparathyroidism, whereas serum phosphorus, alkaline phosphatase and PTH levels were greater in patients with osteitis fibrosa. The combination of a serum PTH level > 200 pg/ml and a serum calcium value < 10 mg/dl was 85% sensitive and 100% specific for identifying patients with high-turnover lesions of bone. Serum PTH values < 200 pg/ml were 100% sensitive but only 79% specific for patients with adynamic bone; specificity increased to 92%, however, using the combined criteria of a PTH level < 150 pg/ml and a serum calcium level > 10 mg/dl. Higher serum calcium levels and serum PTH values within or below the normal range characterize patients with the adynamic lesion of renal osteodystrophy. Serum PTH levels of approximately 200 pg/ml are useful for distinguishing patients with low-turnover lesions of renal osteodystrophy from those with secondary hyperparathyroidism.

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Bone disease in children and adolescents undergoing successful renal transplantation

Sanchez¹,

Salusky

Kuizon

et al. 1998

Kidney International

142

121

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Little is known about the extent and severity of bone disease in children undergoing successful renal transplantation. To address this issue, 47 patients with stable renal function 3.2 +/- 1.7 years after transplantation (Tx) underwent iliac crest bone biopsy. The mean age of patients was 12 +/- 2.0 years; 36 had received cadaveric renal grafts, whereas 11 had undergone living-related Tx. Immunosuppressive drugs included cyclosporine 0.17 +/- 0.4 mg/kg/day, prednisone 7.5 +/- 2.1 mg/kg/day, and either azathioprine 1.6 +/- 0.9 mg/kg/day or mycophenolate mofetil 30 +/- 3 mg/kg/day. In addition to quantitative bone histomorphometry, the bone mineral content (BMC) of the lumbar spine was measured by dual energy X-ray absorptiometry (DXA) in 24/47 patients. Thirty-one transplant recipients had normal bone formation (N-Bfr), 11 had mild hyperparathyroidism (HPT) and 5 had adynamic skeletal lesions (AD). The interval since Tx, duration of dialysis before Tx and cumulative prednisone dose did not differ among groups. Trabecular bone area was highest in subjects with HPT. Unexpectedly, eroded bone perimeter exceeded normal reference values both in patients with AD and in those with N-Bfr; the osteoid area and osteoid perimeter were also elevated in these two groups. Hyperparathyroidism improved or resolved after Tx in all 14 subjects with this skeletal lesion prior to Tx, but one patient developed AD after Tx. Bone histology did not change after Tx in those with N-Bfr during regular dialysis, but bone formation increased after Tx in two of three patients with AD during regular dialysis. Z-scores for height in pre-pubertal patients after Tx were below age-appropriate values in each histologic subgroup, but values did not differ among groups. Z-scores for bone mineral content at the lumbar spine were also less than age-predicted values, -0.67 +/- 1.2. After adjusting for the degree of growth retardation, height-adjusted z-scores for lumbar spine BMC after Tx were above normal in all three histologic groups (0.68 +/- 1.0). The results suggest that reductions in bone mass and post-transplant osteoporosis are not prominent findings in pediatric renal transplant recipients when the influence of growth retardation on bone mass measurements by DXA is carefully considered.

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Intermittent calcitriol therapy in secondary hyperparathyroidism: A comparison between oral and intraperitoneal administration

Salusky¹,

Kuizon²,

Belin³

et al. 1998

Kidney International

113

116

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Jorge A. Ramirez

Development of adynamic bone in patients with secondary hyperparathyroidism after intermittent calcitriol therapy

Biochemical markers of renal osteodystrophy in pediatric patients undergoing CAPD/CCPD

Bone disease in children and adolescents undergoing successful renal transplantation

Intermittent calcitriol therapy in secondary hyperparathyroidism: A comparison between oral and intraperitoneal administration

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